function makeMap(str, expectsLowerCase) {
  const map = /* @__PURE__ */ Object.create(null);
  const list = str.split(",");
  for (let i = 0; i < list.length; i++) {
    map[list[i]] = true;
  }
  return expectsLowerCase ? (val) => !!map[val.toLowerCase()] : (val) => !!map[val];
}

const EMPTY_OBJ = Object.freeze({}) ;
const NOOP = () => {
};
const NO = () => false;
const onRE = /^on[^a-z]/;
const isOn = (key) => onRE.test(key);
const extend = Object.assign;
const hasOwnProperty$3 = Object.prototype.hasOwnProperty;
const hasOwn = (val, key) => hasOwnProperty$3.call(val, key);
const isArray$3 = Array.isArray;
const isMap = (val) => toTypeString(val) === "[object Map]";
const isSet = (val) => toTypeString(val) === "[object Set]";
const isFunction$1 = (val) => typeof val === "function";
const isString$2 = (val) => typeof val === "string";
const isSymbol$1 = (val) => typeof val === "symbol";
const isObject$2 = (val) => val !== null && typeof val === "object";
const objectToString$1 = Object.prototype.toString;
const toTypeString = (value) => objectToString$1.call(value);
const isPlainObject = (val) => toTypeString(val) === "[object Object]";
const isReservedProp = /* @__PURE__ */ makeMap(
  // the leading comma is intentional so empty string "" is also included
  ",key,ref,ref_for,ref_key,onVnodeBeforeMount,onVnodeMounted,onVnodeBeforeUpdate,onVnodeUpdated,onVnodeBeforeUnmount,onVnodeUnmounted"
);
const isBuiltInDirective = /* @__PURE__ */ makeMap(
  "bind,cloak,else-if,else,for,html,if,model,on,once,pre,show,slot,text,memo"
);
const cacheStringFunction = (fn) => {
  const cache = /* @__PURE__ */ Object.create(null);
  return (str) => {
    const hit = cache[str];
    return hit || (cache[str] = fn(str));
  };
};
const camelizeRE = /-(\w)/g;
const camelize = cacheStringFunction((str) => {
  return str.replace(camelizeRE, (_, c) => c ? c.toUpperCase() : "");
});
const hyphenateRE = /\B([A-Z])/g;
const hyphenate = cacheStringFunction(
  (str) => str.replace(hyphenateRE, "-$1").toLowerCase()
);
const capitalize$1 = cacheStringFunction(
  (str) => str.charAt(0).toUpperCase() + str.slice(1)
);
const toHandlerKey = cacheStringFunction(
  (str) => str ? `on${capitalize$1(str)}` : ``
);
const identRE = /^[_$a-zA-Z\xA0-\uFFFF][_$a-zA-Z0-9\xA0-\uFFFF]*$/;
function genPropsAccessExp(name) {
  return identRE.test(name) ? `__props.${name}` : `__props[${JSON.stringify(name)}]`;
}

const PatchFlagNames = {
  [1]: `TEXT`,
  [2]: `CLASS`,
  [4]: `STYLE`,
  [8]: `PROPS`,
  [16]: `FULL_PROPS`,
  [32]: `HYDRATE_EVENTS`,
  [64]: `STABLE_FRAGMENT`,
  [128]: `KEYED_FRAGMENT`,
  [256]: `UNKEYED_FRAGMENT`,
  [512]: `NEED_PATCH`,
  [1024]: `DYNAMIC_SLOTS`,
  [2048]: `DEV_ROOT_FRAGMENT`,
  [-1]: `HOISTED`,
  [-2]: `BAIL`
};

const slotFlagsText = {
  [1]: "STABLE",
  [2]: "DYNAMIC",
  [3]: "FORWARDED"
};

const GLOBALS_WHITE_LISTED = "Infinity,undefined,NaN,isFinite,isNaN,parseFloat,parseInt,decodeURI,decodeURIComponent,encodeURI,encodeURIComponent,Math,Number,Date,Array,Object,Boolean,String,RegExp,Map,Set,JSON,Intl,BigInt,console";
const isGloballyWhitelisted = /* @__PURE__ */ makeMap(GLOBALS_WHITE_LISTED);

const range = 2;
function generateCodeFrame(source, start = 0, end = source.length) {
  let lines = source.split(/(\r?\n)/);
  const newlineSequences = lines.filter((_, idx) => idx % 2 === 1);
  lines = lines.filter((_, idx) => idx % 2 === 0);
  let count = 0;
  const res = [];
  for (let i = 0; i < lines.length; i++) {
    count += lines[i].length + (newlineSequences[i] && newlineSequences[i].length || 0);
    if (count >= start) {
      for (let j = i - range; j <= i + range || end > count; j++) {
        if (j < 0 || j >= lines.length)
          continue;
        const line = j + 1;
        res.push(
          `${line}${" ".repeat(Math.max(3 - String(line).length, 0))}|  ${lines[j]}`
        );
        const lineLength = lines[j].length;
        const newLineSeqLength = newlineSequences[j] && newlineSequences[j].length || 0;
        if (j === i) {
          const pad = start - (count - (lineLength + newLineSeqLength));
          const length = Math.max(
            1,
            end > count ? lineLength - pad : end - start
          );
          res.push(`   |  ` + " ".repeat(pad) + "^".repeat(length));
        } else if (j > i) {
          if (end > count) {
            const length = Math.max(Math.min(end - count, lineLength), 1);
            res.push(`   |  ` + "^".repeat(length));
          }
          count += lineLength + newLineSeqLength;
        }
      }
      break;
    }
  }
  return res.join("\n");
}

function normalizeStyle(value) {
  if (isArray$3(value)) {
    const res = {};
    for (let i = 0; i < value.length; i++) {
      const item = value[i];
      const normalized = isString$2(item) ? parseStringStyle(item) : normalizeStyle(item);
      if (normalized) {
        for (const key in normalized) {
          res[key] = normalized[key];
        }
      }
    }
    return res;
  } else if (isString$2(value)) {
    return value;
  } else if (isObject$2(value)) {
    return value;
  }
}
const listDelimiterRE = /;(?![^(]*\))/g;
const propertyDelimiterRE = /:([^]+)/;
const styleCommentRE = /\/\*[^]*?\*\//g;
function parseStringStyle(cssText) {
  const ret = {};
  cssText.replace(styleCommentRE, "").split(listDelimiterRE).forEach((item) => {
    if (item) {
      const tmp = item.split(propertyDelimiterRE);
      tmp.length > 1 && (ret[tmp[0].trim()] = tmp[1].trim());
    }
  });
  return ret;
}
function stringifyStyle(styles) {
  let ret = "";
  if (!styles || isString$2(styles)) {
    return ret;
  }
  for (const key in styles) {
    const value = styles[key];
    const normalizedKey = key.startsWith(`--`) ? key : hyphenate(key);
    if (isString$2(value) || typeof value === "number") {
      ret += `${normalizedKey}:${value};`;
    }
  }
  return ret;
}
function normalizeClass(value) {
  let res = "";
  if (isString$2(value)) {
    res = value;
  } else if (isArray$3(value)) {
    for (let i = 0; i < value.length; i++) {
      const normalized = normalizeClass(value[i]);
      if (normalized) {
        res += normalized + " ";
      }
    }
  } else if (isObject$2(value)) {
    for (const name in value) {
      if (value[name]) {
        res += name + " ";
      }
    }
  }
  return res.trim();
}

const HTML_TAGS = "html,body,base,head,link,meta,style,title,address,article,aside,footer,header,hgroup,h1,h2,h3,h4,h5,h6,nav,section,div,dd,dl,dt,figcaption,figure,picture,hr,img,li,main,ol,p,pre,ul,a,b,abbr,bdi,bdo,br,cite,code,data,dfn,em,i,kbd,mark,q,rp,rt,ruby,s,samp,small,span,strong,sub,sup,time,u,var,wbr,area,audio,map,track,video,embed,object,param,source,canvas,script,noscript,del,ins,caption,col,colgroup,table,thead,tbody,td,th,tr,button,datalist,fieldset,form,input,label,legend,meter,optgroup,option,output,progress,select,textarea,details,dialog,menu,summary,template,blockquote,iframe,tfoot";
const SVG_TAGS = "svg,animate,animateMotion,animateTransform,circle,clipPath,color-profile,defs,desc,discard,ellipse,feBlend,feColorMatrix,feComponentTransfer,feComposite,feConvolveMatrix,feDiffuseLighting,feDisplacementMap,feDistantLight,feDropShadow,feFlood,feFuncA,feFuncB,feFuncG,feFuncR,feGaussianBlur,feImage,feMerge,feMergeNode,feMorphology,feOffset,fePointLight,feSpecularLighting,feSpotLight,feTile,feTurbulence,filter,foreignObject,g,hatch,hatchpath,image,line,linearGradient,marker,mask,mesh,meshgradient,meshpatch,meshrow,metadata,mpath,path,pattern,polygon,polyline,radialGradient,rect,set,solidcolor,stop,switch,symbol,text,textPath,title,tspan,unknown,use,view";
const VOID_TAGS = "area,base,br,col,embed,hr,img,input,link,meta,param,source,track,wbr";
const isHTMLTag = /* @__PURE__ */ makeMap(HTML_TAGS);
const isSVGTag = /* @__PURE__ */ makeMap(SVG_TAGS);
const isVoidTag = /* @__PURE__ */ makeMap(VOID_TAGS);

const specialBooleanAttrs = `itemscope,allowfullscreen,formnovalidate,ismap,nomodule,novalidate,readonly`;
const isBooleanAttr = /* @__PURE__ */ makeMap(
  specialBooleanAttrs + `,async,autofocus,autoplay,controls,default,defer,disabled,hidden,inert,loop,open,required,reversed,scoped,seamless,checked,muted,multiple,selected`
);
const unsafeAttrCharRE = /[>/="'\u0009\u000a\u000c\u0020]/;
const attrValidationCache = {};
function isSSRSafeAttrName(name) {
  if (attrValidationCache.hasOwnProperty(name)) {
    return attrValidationCache[name];
  }
  const isUnsafe = unsafeAttrCharRE.test(name);
  if (isUnsafe) {
    console.error(`unsafe attribute name: ${name}`);
  }
  return attrValidationCache[name] = !isUnsafe;
}
const propsToAttrMap = {
  acceptCharset: "accept-charset",
  className: "class",
  htmlFor: "for",
  httpEquiv: "http-equiv"
};
const isKnownHtmlAttr = /* @__PURE__ */ makeMap(
  `accept,accept-charset,accesskey,action,align,allow,alt,async,autocapitalize,autocomplete,autofocus,autoplay,background,bgcolor,border,buffered,capture,challenge,charset,checked,cite,class,code,codebase,color,cols,colspan,content,contenteditable,contextmenu,controls,coords,crossorigin,csp,data,datetime,decoding,default,defer,dir,dirname,disabled,download,draggable,dropzone,enctype,enterkeyhint,for,form,formaction,formenctype,formmethod,formnovalidate,formtarget,headers,height,hidden,high,href,hreflang,http-equiv,icon,id,importance,inert,integrity,ismap,itemprop,keytype,kind,label,lang,language,loading,list,loop,low,manifest,max,maxlength,minlength,media,min,multiple,muted,name,novalidate,open,optimum,pattern,ping,placeholder,poster,preload,radiogroup,readonly,referrerpolicy,rel,required,reversed,rows,rowspan,sandbox,scope,scoped,selected,shape,size,sizes,slot,span,spellcheck,src,srcdoc,srclang,srcset,start,step,style,summary,tabindex,target,title,translate,type,usemap,value,width,wrap`
);
const isKnownSvgAttr = /* @__PURE__ */ makeMap(
  `xmlns,accent-height,accumulate,additive,alignment-baseline,alphabetic,amplitude,arabic-form,ascent,attributeName,attributeType,azimuth,baseFrequency,baseline-shift,baseProfile,bbox,begin,bias,by,calcMode,cap-height,class,clip,clipPathUnits,clip-path,clip-rule,color,color-interpolation,color-interpolation-filters,color-profile,color-rendering,contentScriptType,contentStyleType,crossorigin,cursor,cx,cy,d,decelerate,descent,diffuseConstant,direction,display,divisor,dominant-baseline,dur,dx,dy,edgeMode,elevation,enable-background,end,exponent,fill,fill-opacity,fill-rule,filter,filterRes,filterUnits,flood-color,flood-opacity,font-family,font-size,font-size-adjust,font-stretch,font-style,font-variant,font-weight,format,from,fr,fx,fy,g1,g2,glyph-name,glyph-orientation-horizontal,glyph-orientation-vertical,glyphRef,gradientTransform,gradientUnits,hanging,height,href,hreflang,horiz-adv-x,horiz-origin-x,id,ideographic,image-rendering,in,in2,intercept,k,k1,k2,k3,k4,kernelMatrix,kernelUnitLength,kerning,keyPoints,keySplines,keyTimes,lang,lengthAdjust,letter-spacing,lighting-color,limitingConeAngle,local,marker-end,marker-mid,marker-start,markerHeight,markerUnits,markerWidth,mask,maskContentUnits,maskUnits,mathematical,max,media,method,min,mode,name,numOctaves,offset,opacity,operator,order,orient,orientation,origin,overflow,overline-position,overline-thickness,panose-1,paint-order,path,pathLength,patternContentUnits,patternTransform,patternUnits,ping,pointer-events,points,pointsAtX,pointsAtY,pointsAtZ,preserveAlpha,preserveAspectRatio,primitiveUnits,r,radius,referrerPolicy,refX,refY,rel,rendering-intent,repeatCount,repeatDur,requiredExtensions,requiredFeatures,restart,result,rotate,rx,ry,scale,seed,shape-rendering,slope,spacing,specularConstant,specularExponent,speed,spreadMethod,startOffset,stdDeviation,stemh,stemv,stitchTiles,stop-color,stop-opacity,strikethrough-position,strikethrough-thickness,string,stroke,stroke-dasharray,stroke-dashoffset,stroke-linecap,stroke-linejoin,stroke-miterlimit,stroke-opacity,stroke-width,style,surfaceScale,systemLanguage,tabindex,tableValues,target,targetX,targetY,text-anchor,text-decoration,text-rendering,textLength,to,transform,transform-origin,type,u1,u2,underline-position,underline-thickness,unicode,unicode-bidi,unicode-range,units-per-em,v-alphabetic,v-hanging,v-ideographic,v-mathematical,values,vector-effect,version,vert-adv-y,vert-origin-x,vert-origin-y,viewBox,viewTarget,visibility,width,widths,word-spacing,writing-mode,x,x-height,x1,x2,xChannelSelector,xlink:actuate,xlink:arcrole,xlink:href,xlink:role,xlink:show,xlink:title,xlink:type,xml:base,xml:lang,xml:space,y,y1,y2,yChannelSelector,z,zoomAndPan`
);

const escapeRE = /["'&<>]/;
function escapeHtml(string) {
  const str = "" + string;
  const match = escapeRE.exec(str);
  if (!match) {
    return str;
  }
  let html = "";
  let escaped;
  let index;
  let lastIndex = 0;
  for (index = match.index; index < str.length; index++) {
    switch (str.charCodeAt(index)) {
      case 34:
        escaped = "&quot;";
        break;
      case 38:
        escaped = "&amp;";
        break;
      case 39:
        escaped = "&#39;";
        break;
      case 60:
        escaped = "&lt;";
        break;
      case 62:
        escaped = "&gt;";
        break;
      default:
        continue;
    }
    if (lastIndex !== index) {
      html += str.slice(lastIndex, index);
    }
    lastIndex = index + 1;
    html += escaped;
  }
  return lastIndex !== index ? html + str.slice(lastIndex, index) : html;
}

const toDisplayString = (val) => {
  return isString$2(val) ? val : val == null ? "" : isArray$3(val) || isObject$2(val) && (val.toString === objectToString$1 || !isFunction$1(val.toString)) ? JSON.stringify(val, replacer, 2) : String(val);
};
const replacer = (_key, val) => {
  if (val && val.__v_isRef) {
    return replacer(_key, val.value);
  } else if (isMap(val)) {
    return {
      [`Map(${val.size})`]: [...val.entries()].reduce((entries, [key, val2]) => {
        entries[`${key} =>`] = val2;
        return entries;
      }, {})
    };
  } else if (isSet(val)) {
    return {
      [`Set(${val.size})`]: [...val.values()]
    };
  } else if (isObject$2(val) && !isArray$3(val) && !isPlainObject(val)) {
    return String(val);
  }
  return val;
};

function defaultOnError(error) {
  throw error;
}
function defaultOnWarn(msg) {
  console.warn(`[Vue warn] ${msg.message}`);
}
function createCompilerError(code, loc, messages, additionalMessage) {
  const msg = (messages || errorMessages)[code] + (additionalMessage || ``) ;
  const error = new SyntaxError(String(msg));
  error.code = code;
  error.loc = loc;
  return error;
}
const errorMessages = {
  // parse errors
  [0]: "Illegal comment.",
  [1]: "CDATA section is allowed only in XML context.",
  [2]: "Duplicate attribute.",
  [3]: "End tag cannot have attributes.",
  [4]: "Illegal '/' in tags.",
  [5]: "Unexpected EOF in tag.",
  [6]: "Unexpected EOF in CDATA section.",
  [7]: "Unexpected EOF in comment.",
  [8]: "Unexpected EOF in script.",
  [9]: "Unexpected EOF in tag.",
  [10]: "Incorrectly closed comment.",
  [11]: "Incorrectly opened comment.",
  [12]: "Illegal tag name. Use '&lt;' to print '<'.",
  [13]: "Attribute value was expected.",
  [14]: "End tag name was expected.",
  [15]: "Whitespace was expected.",
  [16]: "Unexpected '<!--' in comment.",
  [17]: `Attribute name cannot contain U+0022 ("), U+0027 ('), and U+003C (<).`,
  [18]: "Unquoted attribute value cannot contain U+0022 (\"), U+0027 ('), U+003C (<), U+003D (=), and U+0060 (`).",
  [19]: "Attribute name cannot start with '='.",
  [21]: "'<?' is allowed only in XML context.",
  [20]: `Unexpected null character.`,
  [22]: "Illegal '/' in tags.",
  // Vue-specific parse errors
  [23]: "Invalid end tag.",
  [24]: "Element is missing end tag.",
  [25]: "Interpolation end sign was not found.",
  [27]: "End bracket for dynamic directive argument was not found. Note that dynamic directive argument cannot contain spaces.",
  [26]: "Legal directive name was expected.",
  // transform errors
  [28]: `v-if/v-else-if is missing expression.`,
  [29]: `v-if/else branches must use unique keys.`,
  [30]: `v-else/v-else-if has no adjacent v-if or v-else-if.`,
  [31]: `v-for is missing expression.`,
  [32]: `v-for has invalid expression.`,
  [33]: `<template v-for> key should be placed on the <template> tag.`,
  [34]: `v-bind is missing expression.`,
  [35]: `v-on is missing expression.`,
  [36]: `Unexpected custom directive on <slot> outlet.`,
  [37]: `Mixed v-slot usage on both the component and nested <template>. When there are multiple named slots, all slots should use <template> syntax to avoid scope ambiguity.`,
  [38]: `Duplicate slot names found. `,
  [39]: `Extraneous children found when component already has explicitly named default slot. These children will be ignored.`,
  [40]: `v-slot can only be used on components or <template> tags.`,
  [41]: `v-model is missing expression.`,
  [42]: `v-model value must be a valid JavaScript member expression.`,
  [43]: `v-model cannot be used on v-for or v-slot scope variables because they are not writable.`,
  [44]: `v-model cannot be used on a prop, because local prop bindings are not writable.
Use a v-bind binding combined with a v-on listener that emits update:x event instead.`,
  [45]: `Error parsing JavaScript expression: `,
  [46]: `<KeepAlive> expects exactly one child component.`,
  // generic errors
  [47]: `"prefixIdentifiers" option is not supported in this build of compiler.`,
  [48]: `ES module mode is not supported in this build of compiler.`,
  [49]: `"cacheHandlers" option is only supported when the "prefixIdentifiers" option is enabled.`,
  [50]: `"scopeId" option is only supported in module mode.`,
  // deprecations
  [51]: `@vnode-* hooks in templates are deprecated. Use the vue: prefix instead. For example, @vnode-mounted should be changed to @vue:mounted. @vnode-* hooks support will be removed in 3.4.`,
  [52]: `v-is="component-name" has been deprecated. Use is="vue:component-name" instead. v-is support will be removed in 3.4.`,
  // just to fulfill types
  [53]: ``
};

const FRAGMENT = Symbol(`Fragment` );
const TELEPORT = Symbol(`Teleport` );
const SUSPENSE = Symbol(`Suspense` );
const KEEP_ALIVE = Symbol(`KeepAlive` );
const BASE_TRANSITION = Symbol(`BaseTransition` );
const OPEN_BLOCK = Symbol(`openBlock` );
const CREATE_BLOCK = Symbol(`createBlock` );
const CREATE_ELEMENT_BLOCK = Symbol(`createElementBlock` );
const CREATE_VNODE = Symbol(`createVNode` );
const CREATE_ELEMENT_VNODE = Symbol(`createElementVNode` );
const CREATE_COMMENT = Symbol(`createCommentVNode` );
const CREATE_TEXT = Symbol(`createTextVNode` );
const CREATE_STATIC = Symbol(`createStaticVNode` );
const RESOLVE_COMPONENT = Symbol(`resolveComponent` );
const RESOLVE_DYNAMIC_COMPONENT = Symbol(
  `resolveDynamicComponent` 
);
const RESOLVE_DIRECTIVE = Symbol(`resolveDirective` );
const RESOLVE_FILTER = Symbol(`resolveFilter` );
const WITH_DIRECTIVES = Symbol(`withDirectives` );
const RENDER_LIST = Symbol(`renderList` );
const RENDER_SLOT = Symbol(`renderSlot` );
const CREATE_SLOTS = Symbol(`createSlots` );
const TO_DISPLAY_STRING = Symbol(`toDisplayString` );
const MERGE_PROPS = Symbol(`mergeProps` );
const NORMALIZE_CLASS = Symbol(`normalizeClass` );
const NORMALIZE_STYLE = Symbol(`normalizeStyle` );
const NORMALIZE_PROPS = Symbol(`normalizeProps` );
const GUARD_REACTIVE_PROPS = Symbol(`guardReactiveProps` );
const TO_HANDLERS = Symbol(`toHandlers` );
const CAMELIZE = Symbol(`camelize` );
const CAPITALIZE = Symbol(`capitalize` );
const TO_HANDLER_KEY = Symbol(`toHandlerKey` );
const SET_BLOCK_TRACKING = Symbol(`setBlockTracking` );
const PUSH_SCOPE_ID = Symbol(`pushScopeId` );
const POP_SCOPE_ID = Symbol(`popScopeId` );
const WITH_CTX = Symbol(`withCtx` );
const UNREF = Symbol(`unref` );
const IS_REF = Symbol(`isRef` );
const WITH_MEMO = Symbol(`withMemo` );
const IS_MEMO_SAME = Symbol(`isMemoSame` );
const helperNameMap = {
  [FRAGMENT]: `Fragment`,
  [TELEPORT]: `Teleport`,
  [SUSPENSE]: `Suspense`,
  [KEEP_ALIVE]: `KeepAlive`,
  [BASE_TRANSITION]: `BaseTransition`,
  [OPEN_BLOCK]: `openBlock`,
  [CREATE_BLOCK]: `createBlock`,
  [CREATE_ELEMENT_BLOCK]: `createElementBlock`,
  [CREATE_VNODE]: `createVNode`,
  [CREATE_ELEMENT_VNODE]: `createElementVNode`,
  [CREATE_COMMENT]: `createCommentVNode`,
  [CREATE_TEXT]: `createTextVNode`,
  [CREATE_STATIC]: `createStaticVNode`,
  [RESOLVE_COMPONENT]: `resolveComponent`,
  [RESOLVE_DYNAMIC_COMPONENT]: `resolveDynamicComponent`,
  [RESOLVE_DIRECTIVE]: `resolveDirective`,
  [RESOLVE_FILTER]: `resolveFilter`,
  [WITH_DIRECTIVES]: `withDirectives`,
  [RENDER_LIST]: `renderList`,
  [RENDER_SLOT]: `renderSlot`,
  [CREATE_SLOTS]: `createSlots`,
  [TO_DISPLAY_STRING]: `toDisplayString`,
  [MERGE_PROPS]: `mergeProps`,
  [NORMALIZE_CLASS]: `normalizeClass`,
  [NORMALIZE_STYLE]: `normalizeStyle`,
  [NORMALIZE_PROPS]: `normalizeProps`,
  [GUARD_REACTIVE_PROPS]: `guardReactiveProps`,
  [TO_HANDLERS]: `toHandlers`,
  [CAMELIZE]: `camelize`,
  [CAPITALIZE]: `capitalize`,
  [TO_HANDLER_KEY]: `toHandlerKey`,
  [SET_BLOCK_TRACKING]: `setBlockTracking`,
  [PUSH_SCOPE_ID]: `pushScopeId`,
  [POP_SCOPE_ID]: `popScopeId`,
  [WITH_CTX]: `withCtx`,
  [UNREF]: `unref`,
  [IS_REF]: `isRef`,
  [WITH_MEMO]: `withMemo`,
  [IS_MEMO_SAME]: `isMemoSame`
};
function registerRuntimeHelpers(helpers) {
  Object.getOwnPropertySymbols(helpers).forEach((s) => {
    helperNameMap[s] = helpers[s];
  });
}

const locStub = {
  source: "",
  start: { line: 1, column: 1, offset: 0 },
  end: { line: 1, column: 1, offset: 0 }
};
function createRoot(children, loc = locStub) {
  return {
    type: 0,
    children,
    helpers: /* @__PURE__ */ new Set(),
    components: [],
    directives: [],
    hoists: [],
    imports: [],
    cached: 0,
    temps: 0,
    codegenNode: void 0,
    loc
  };
}
function createVNodeCall(context, tag, props, children, patchFlag, dynamicProps, directives, isBlock = false, disableTracking = false, isComponent = false, loc = locStub) {
  if (context) {
    if (isBlock) {
      context.helper(OPEN_BLOCK);
      context.helper(getVNodeBlockHelper(context.inSSR, isComponent));
    } else {
      context.helper(getVNodeHelper(context.inSSR, isComponent));
    }
    if (directives) {
      context.helper(WITH_DIRECTIVES);
    }
  }
  return {
    type: 13,
    tag,
    props,
    children,
    patchFlag,
    dynamicProps,
    directives,
    isBlock,
    disableTracking,
    isComponent,
    loc
  };
}
function createArrayExpression(elements, loc = locStub) {
  return {
    type: 17,
    loc,
    elements
  };
}
function createObjectExpression(properties, loc = locStub) {
  return {
    type: 15,
    loc,
    properties
  };
}
function createObjectProperty(key, value) {
  return {
    type: 16,
    loc: locStub,
    key: isString$2(key) ? createSimpleExpression(key, true) : key,
    value
  };
}
function createSimpleExpression(content, isStatic = false, loc = locStub, constType = 0) {
  return {
    type: 4,
    loc,
    content,
    isStatic,
    constType: isStatic ? 3 : constType
  };
}
function createInterpolation(content, loc) {
  return {
    type: 5,
    loc,
    content: isString$2(content) ? createSimpleExpression(content, false, loc) : content
  };
}
function createCompoundExpression(children, loc = locStub) {
  return {
    type: 8,
    loc,
    children
  };
}
function createCallExpression(callee, args = [], loc = locStub) {
  return {
    type: 14,
    loc,
    callee,
    arguments: args
  };
}
function createFunctionExpression(params, returns = void 0, newline = false, isSlot = false, loc = locStub) {
  return {
    type: 18,
    params,
    returns,
    newline,
    isSlot,
    loc
  };
}
function createConditionalExpression(test, consequent, alternate, newline = true) {
  return {
    type: 19,
    test,
    consequent,
    alternate,
    newline,
    loc: locStub
  };
}
function createCacheExpression(index, value, isVNode = false) {
  return {
    type: 20,
    index,
    value,
    isVNode,
    loc: locStub
  };
}
function createBlockStatement(body) {
  return {
    type: 21,
    body,
    loc: locStub
  };
}
function createTemplateLiteral(elements) {
  return {
    type: 22,
    elements,
    loc: locStub
  };
}
function createIfStatement(test, consequent, alternate) {
  return {
    type: 23,
    test,
    consequent,
    alternate,
    loc: locStub
  };
}
function createAssignmentExpression(left, right) {
  return {
    type: 24,
    left,
    right,
    loc: locStub
  };
}
function createSequenceExpression(expressions) {
  return {
    type: 25,
    expressions,
    loc: locStub
  };
}
function createReturnStatement(returns) {
  return {
    type: 26,
    returns,
    loc: locStub
  };
}
function getVNodeHelper(ssr, isComponent) {
  return ssr || isComponent ? CREATE_VNODE : CREATE_ELEMENT_VNODE;
}
function getVNodeBlockHelper(ssr, isComponent) {
  return ssr || isComponent ? CREATE_BLOCK : CREATE_ELEMENT_BLOCK;
}
function convertToBlock(node, { helper, removeHelper, inSSR }) {
  if (!node.isBlock) {
    node.isBlock = true;
    removeHelper(getVNodeHelper(inSSR, node.isComponent));
    helper(OPEN_BLOCK);
    helper(getVNodeBlockHelper(inSSR, node.isComponent));
  }
}

function getDefaultExportFromCjs (x) {
	return x && x.__esModule && Object.prototype.hasOwnProperty.call(x, 'default') ? x['default'] : x;
}

function getAugmentedNamespace(n) {
  if (n.__esModule) return n;
  var f = n.default;
	if (typeof f == "function") {
		var a = function a () {
			if (this instanceof a) {
				var args = [null];
				args.push.apply(args, arguments);
				var Ctor = Function.bind.apply(f, args);
				return new Ctor();
			}
			return f.apply(this, arguments);
		};
		a.prototype = f.prototype;
  } else a = {};
  Object.defineProperty(a, '__esModule', {value: true});
	Object.keys(n).forEach(function (k) {
		var d = Object.getOwnPropertyDescriptor(n, k);
		Object.defineProperty(a, k, d.get ? d : {
			enumerable: true,
			get: function () {
				return n[k];
			}
		});
	});
	return a;
}

var lib = {};

Object.defineProperty(lib, '__esModule', {
  value: true
});
const defaultOptions = {
  sourceType: "script",
  sourceFilename: undefined,
  startColumn: 0,
  startLine: 1,
  allowAwaitOutsideFunction: false,
  allowReturnOutsideFunction: false,
  allowNewTargetOutsideFunction: false,
  allowImportExportEverywhere: false,
  allowSuperOutsideMethod: false,
  allowUndeclaredExports: false,
  plugins: [],
  strictMode: null,
  ranges: false,
  tokens: false,
  createParenthesizedExpressions: false,
  errorRecovery: false,
  attachComment: true,
  annexB: true
};
function getOptions(opts) {
  if (opts && opts.annexB != null && opts.annexB !== false) {
    throw new Error("The `annexB` option can only be set to `false`.");
  }
  const options = {};
  for (const key of Object.keys(defaultOptions)) {
    options[key] = opts && opts[key] != null ? opts[key] : defaultOptions[key];
  }
  return options;
}
class TokContext {
  constructor(token, preserveSpace) {
    this.token = void 0;
    this.preserveSpace = void 0;
    this.token = token;
    this.preserveSpace = !!preserveSpace;
  }
}
const types$1 = {
  brace: new TokContext("{"),
  j_oTag: new TokContext("<tag"),
  j_cTag: new TokContext("</tag"),
  j_expr: new TokContext("<tag>...</tag>", true)
};
{
  types$1.template = new TokContext("`", true);
}
const beforeExpr = true;
const startsExpr = true;
const isLoop = true;
const isAssign = true;
const prefix = true;
const postfix = true;
class ExportedTokenType {
  constructor(label, conf = {}) {
    this.label = void 0;
    this.keyword = void 0;
    this.beforeExpr = void 0;
    this.startsExpr = void 0;
    this.rightAssociative = void 0;
    this.isLoop = void 0;
    this.isAssign = void 0;
    this.prefix = void 0;
    this.postfix = void 0;
    this.binop = void 0;
    this.label = label;
    this.keyword = conf.keyword;
    this.beforeExpr = !!conf.beforeExpr;
    this.startsExpr = !!conf.startsExpr;
    this.rightAssociative = !!conf.rightAssociative;
    this.isLoop = !!conf.isLoop;
    this.isAssign = !!conf.isAssign;
    this.prefix = !!conf.prefix;
    this.postfix = !!conf.postfix;
    this.binop = conf.binop != null ? conf.binop : null;
    {
      this.updateContext = null;
    }
  }
}
const keywords$1 = new Map();
function createKeyword(name, options = {}) {
  options.keyword = name;
  const token = createToken(name, options);
  keywords$1.set(name, token);
  return token;
}
function createBinop(name, binop) {
  return createToken(name, {
    beforeExpr,
    binop
  });
}
let tokenTypeCounter = -1;
const tokenTypes$1 = [];
const tokenLabels = [];
const tokenBinops = [];
const tokenBeforeExprs = [];
const tokenStartsExprs = [];
const tokenPrefixes = [];
function createToken(name, options = {}) {
  var _options$binop, _options$beforeExpr, _options$startsExpr, _options$prefix;
  ++tokenTypeCounter;
  tokenLabels.push(name);
  tokenBinops.push((_options$binop = options.binop) != null ? _options$binop : -1);
  tokenBeforeExprs.push((_options$beforeExpr = options.beforeExpr) != null ? _options$beforeExpr : false);
  tokenStartsExprs.push((_options$startsExpr = options.startsExpr) != null ? _options$startsExpr : false);
  tokenPrefixes.push((_options$prefix = options.prefix) != null ? _options$prefix : false);
  tokenTypes$1.push(new ExportedTokenType(name, options));
  return tokenTypeCounter;
}
function createKeywordLike(name, options = {}) {
  var _options$binop2, _options$beforeExpr2, _options$startsExpr2, _options$prefix2;
  ++tokenTypeCounter;
  keywords$1.set(name, tokenTypeCounter);
  tokenLabels.push(name);
  tokenBinops.push((_options$binop2 = options.binop) != null ? _options$binop2 : -1);
  tokenBeforeExprs.push((_options$beforeExpr2 = options.beforeExpr) != null ? _options$beforeExpr2 : false);
  tokenStartsExprs.push((_options$startsExpr2 = options.startsExpr) != null ? _options$startsExpr2 : false);
  tokenPrefixes.push((_options$prefix2 = options.prefix) != null ? _options$prefix2 : false);
  tokenTypes$1.push(new ExportedTokenType("name", options));
  return tokenTypeCounter;
}
const tt = {
  bracketL: createToken("[", {
    beforeExpr,
    startsExpr
  }),
  bracketHashL: createToken("#[", {
    beforeExpr,
    startsExpr
  }),
  bracketBarL: createToken("[|", {
    beforeExpr,
    startsExpr
  }),
  bracketR: createToken("]"),
  bracketBarR: createToken("|]"),
  braceL: createToken("{", {
    beforeExpr,
    startsExpr
  }),
  braceBarL: createToken("{|", {
    beforeExpr,
    startsExpr
  }),
  braceHashL: createToken("#{", {
    beforeExpr,
    startsExpr
  }),
  braceR: createToken("}"),
  braceBarR: createToken("|}"),
  parenL: createToken("(", {
    beforeExpr,
    startsExpr
  }),
  parenR: createToken(")"),
  comma: createToken(",", {
    beforeExpr
  }),
  semi: createToken(";", {
    beforeExpr
  }),
  colon: createToken(":", {
    beforeExpr
  }),
  doubleColon: createToken("::", {
    beforeExpr
  }),
  dot: createToken("."),
  question: createToken("?", {
    beforeExpr
  }),
  questionDot: createToken("?."),
  arrow: createToken("=>", {
    beforeExpr
  }),
  template: createToken("template"),
  ellipsis: createToken("...", {
    beforeExpr
  }),
  backQuote: createToken("`", {
    startsExpr
  }),
  dollarBraceL: createToken("${", {
    beforeExpr,
    startsExpr
  }),
  templateTail: createToken("...`", {
    startsExpr
  }),
  templateNonTail: createToken("...${", {
    beforeExpr,
    startsExpr
  }),
  at: createToken("@"),
  hash: createToken("#", {
    startsExpr
  }),
  interpreterDirective: createToken("#!..."),
  eq: createToken("=", {
    beforeExpr,
    isAssign
  }),
  assign: createToken("_=", {
    beforeExpr,
    isAssign
  }),
  slashAssign: createToken("_=", {
    beforeExpr,
    isAssign
  }),
  xorAssign: createToken("_=", {
    beforeExpr,
    isAssign
  }),
  moduloAssign: createToken("_=", {
    beforeExpr,
    isAssign
  }),
  incDec: createToken("++/--", {
    prefix,
    postfix,
    startsExpr
  }),
  bang: createToken("!", {
    beforeExpr,
    prefix,
    startsExpr
  }),
  tilde: createToken("~", {
    beforeExpr,
    prefix,
    startsExpr
  }),
  doubleCaret: createToken("^^", {
    startsExpr
  }),
  doubleAt: createToken("@@", {
    startsExpr
  }),
  pipeline: createBinop("|>", 0),
  nullishCoalescing: createBinop("??", 1),
  logicalOR: createBinop("||", 1),
  logicalAND: createBinop("&&", 2),
  bitwiseOR: createBinop("|", 3),
  bitwiseXOR: createBinop("^", 4),
  bitwiseAND: createBinop("&", 5),
  equality: createBinop("==/!=/===/!==", 6),
  lt: createBinop("</>/<=/>=", 7),
  gt: createBinop("</>/<=/>=", 7),
  relational: createBinop("</>/<=/>=", 7),
  bitShift: createBinop("<</>>/>>>", 8),
  bitShiftL: createBinop("<</>>/>>>", 8),
  bitShiftR: createBinop("<</>>/>>>", 8),
  plusMin: createToken("+/-", {
    beforeExpr,
    binop: 9,
    prefix,
    startsExpr
  }),
  modulo: createToken("%", {
    binop: 10,
    startsExpr
  }),
  star: createToken("*", {
    binop: 10
  }),
  slash: createBinop("/", 10),
  exponent: createToken("**", {
    beforeExpr,
    binop: 11,
    rightAssociative: true
  }),
  _in: createKeyword("in", {
    beforeExpr,
    binop: 7
  }),
  _instanceof: createKeyword("instanceof", {
    beforeExpr,
    binop: 7
  }),
  _break: createKeyword("break"),
  _case: createKeyword("case", {
    beforeExpr
  }),
  _catch: createKeyword("catch"),
  _continue: createKeyword("continue"),
  _debugger: createKeyword("debugger"),
  _default: createKeyword("default", {
    beforeExpr
  }),
  _else: createKeyword("else", {
    beforeExpr
  }),
  _finally: createKeyword("finally"),
  _function: createKeyword("function", {
    startsExpr
  }),
  _if: createKeyword("if"),
  _return: createKeyword("return", {
    beforeExpr
  }),
  _switch: createKeyword("switch"),
  _throw: createKeyword("throw", {
    beforeExpr,
    prefix,
    startsExpr
  }),
  _try: createKeyword("try"),
  _var: createKeyword("var"),
  _const: createKeyword("const"),
  _with: createKeyword("with"),
  _new: createKeyword("new", {
    beforeExpr,
    startsExpr
  }),
  _this: createKeyword("this", {
    startsExpr
  }),
  _super: createKeyword("super", {
    startsExpr
  }),
  _class: createKeyword("class", {
    startsExpr
  }),
  _extends: createKeyword("extends", {
    beforeExpr
  }),
  _export: createKeyword("export"),
  _import: createKeyword("import", {
    startsExpr
  }),
  _null: createKeyword("null", {
    startsExpr
  }),
  _true: createKeyword("true", {
    startsExpr
  }),
  _false: createKeyword("false", {
    startsExpr
  }),
  _typeof: createKeyword("typeof", {
    beforeExpr,
    prefix,
    startsExpr
  }),
  _void: createKeyword("void", {
    beforeExpr,
    prefix,
    startsExpr
  }),
  _delete: createKeyword("delete", {
    beforeExpr,
    prefix,
    startsExpr
  }),
  _do: createKeyword("do", {
    isLoop,
    beforeExpr
  }),
  _for: createKeyword("for", {
    isLoop
  }),
  _while: createKeyword("while", {
    isLoop
  }),
  _as: createKeywordLike("as", {
    startsExpr
  }),
  _assert: createKeywordLike("assert", {
    startsExpr
  }),
  _async: createKeywordLike("async", {
    startsExpr
  }),
  _await: createKeywordLike("await", {
    startsExpr
  }),
  _from: createKeywordLike("from", {
    startsExpr
  }),
  _get: createKeywordLike("get", {
    startsExpr
  }),
  _let: createKeywordLike("let", {
    startsExpr
  }),
  _meta: createKeywordLike("meta", {
    startsExpr
  }),
  _of: createKeywordLike("of", {
    startsExpr
  }),
  _sent: createKeywordLike("sent", {
    startsExpr
  }),
  _set: createKeywordLike("set", {
    startsExpr
  }),
  _static: createKeywordLike("static", {
    startsExpr
  }),
  _using: createKeywordLike("using", {
    startsExpr
  }),
  _yield: createKeywordLike("yield", {
    startsExpr
  }),
  _asserts: createKeywordLike("asserts", {
    startsExpr
  }),
  _checks: createKeywordLike("checks", {
    startsExpr
  }),
  _exports: createKeywordLike("exports", {
    startsExpr
  }),
  _global: createKeywordLike("global", {
    startsExpr
  }),
  _implements: createKeywordLike("implements", {
    startsExpr
  }),
  _intrinsic: createKeywordLike("intrinsic", {
    startsExpr
  }),
  _infer: createKeywordLike("infer", {
    startsExpr
  }),
  _is: createKeywordLike("is", {
    startsExpr
  }),
  _mixins: createKeywordLike("mixins", {
    startsExpr
  }),
  _proto: createKeywordLike("proto", {
    startsExpr
  }),
  _require: createKeywordLike("require", {
    startsExpr
  }),
  _satisfies: createKeywordLike("satisfies", {
    startsExpr
  }),
  _keyof: createKeywordLike("keyof", {
    startsExpr
  }),
  _readonly: createKeywordLike("readonly", {
    startsExpr
  }),
  _unique: createKeywordLike("unique", {
    startsExpr
  }),
  _abstract: createKeywordLike("abstract", {
    startsExpr
  }),
  _declare: createKeywordLike("declare", {
    startsExpr
  }),
  _enum: createKeywordLike("enum", {
    startsExpr
  }),
  _module: createKeywordLike("module", {
    startsExpr
  }),
  _namespace: createKeywordLike("namespace", {
    startsExpr
  }),
  _interface: createKeywordLike("interface", {
    startsExpr
  }),
  _type: createKeywordLike("type", {
    startsExpr
  }),
  _opaque: createKeywordLike("opaque", {
    startsExpr
  }),
  name: createToken("name", {
    startsExpr
  }),
  string: createToken("string", {
    startsExpr
  }),
  num: createToken("num", {
    startsExpr
  }),
  bigint: createToken("bigint", {
    startsExpr
  }),
  decimal: createToken("decimal", {
    startsExpr
  }),
  regexp: createToken("regexp", {
    startsExpr
  }),
  privateName: createToken("#name", {
    startsExpr
  }),
  eof: createToken("eof"),
  jsxName: createToken("jsxName"),
  jsxText: createToken("jsxText", {
    beforeExpr: true
  }),
  jsxTagStart: createToken("jsxTagStart", {
    startsExpr: true
  }),
  jsxTagEnd: createToken("jsxTagEnd"),
  placeholder: createToken("%%", {
    startsExpr: true
  })
};
function tokenIsIdentifier(token) {
  return token >= 93 && token <= 130;
}
function tokenKeywordOrIdentifierIsKeyword(token) {
  return token <= 92;
}
function tokenIsKeywordOrIdentifier(token) {
  return token >= 58 && token <= 130;
}
function tokenIsLiteralPropertyName(token) {
  return token >= 58 && token <= 134;
}
function tokenComesBeforeExpression(token) {
  return tokenBeforeExprs[token];
}
function tokenCanStartExpression(token) {
  return tokenStartsExprs[token];
}
function tokenIsAssignment(token) {
  return token >= 29 && token <= 33;
}
function tokenIsFlowInterfaceOrTypeOrOpaque(token) {
  return token >= 127 && token <= 129;
}
function tokenIsLoop(token) {
  return token >= 90 && token <= 92;
}
function tokenIsKeyword(token) {
  return token >= 58 && token <= 92;
}
function tokenIsOperator(token) {
  return token >= 39 && token <= 59;
}
function tokenIsPostfix(token) {
  return token === 34;
}
function tokenIsPrefix(token) {
  return tokenPrefixes[token];
}
function tokenIsTSTypeOperator(token) {
  return token >= 119 && token <= 121;
}
function tokenIsTSDeclarationStart(token) {
  return token >= 122 && token <= 128;
}
function tokenLabelName(token) {
  return tokenLabels[token];
}
function tokenOperatorPrecedence(token) {
  return tokenBinops[token];
}
function tokenIsRightAssociative(token) {
  return token === 57;
}
function tokenIsTemplate(token) {
  return token >= 24 && token <= 25;
}
function getExportedToken(token) {
  return tokenTypes$1[token];
}
{
  tokenTypes$1[8].updateContext = context => {
    context.pop();
  };
  tokenTypes$1[5].updateContext = tokenTypes$1[7].updateContext = tokenTypes$1[23].updateContext = context => {
    context.push(types$1.brace);
  };
  tokenTypes$1[22].updateContext = context => {
    if (context[context.length - 1] === types$1.template) {
      context.pop();
    } else {
      context.push(types$1.template);
    }
  };
  tokenTypes$1[140].updateContext = context => {
    context.push(types$1.j_expr, types$1.j_oTag);
  };
}
function _objectWithoutPropertiesLoose(source, excluded) {
  if (source == null) return {};
  var target = {};
  var sourceKeys = Object.keys(source);
  var key, i;
  for (i = 0; i < sourceKeys.length; i++) {
    key = sourceKeys[i];
    if (excluded.indexOf(key) >= 0) continue;
    target[key] = source[key];
  }
  return target;
}
class Position {
  constructor(line, col, index) {
    this.line = void 0;
    this.column = void 0;
    this.index = void 0;
    this.line = line;
    this.column = col;
    this.index = index;
  }
}
class SourceLocation {
  constructor(start, end) {
    this.start = void 0;
    this.end = void 0;
    this.filename = void 0;
    this.identifierName = void 0;
    this.start = start;
    this.end = end;
  }
}
function createPositionWithColumnOffset(position, columnOffset) {
  const {
    line,
    column,
    index
  } = position;
  return new Position(line, column + columnOffset, index + columnOffset);
}
var ParseErrorCode = {
  SyntaxError: "BABEL_PARSER_SYNTAX_ERROR",
  SourceTypeModuleError: "BABEL_PARSER_SOURCETYPE_MODULE_REQUIRED"
};
const reflect = (keys, last = keys.length - 1) => ({
  get() {
    return keys.reduce((object, key) => object[key], this);
  },
  set(value) {
    keys.reduce((item, key, i) => i === last ? item[key] = value : item[key], this);
  }
});
const instantiate = (constructor, properties, descriptors) => Object.keys(descriptors).map(key => [key, descriptors[key]]).filter(([, descriptor]) => !!descriptor).map(([key, descriptor]) => [key, typeof descriptor === "function" ? {
  value: descriptor,
  enumerable: false
} : typeof descriptor.reflect === "string" ? Object.assign({}, descriptor, reflect(descriptor.reflect.split("."))) : descriptor]).reduce((instance, [key, descriptor]) => Object.defineProperty(instance, key, Object.assign({
  configurable: true
}, descriptor)), Object.assign(new constructor(), properties));
var ModuleErrors = {
  ImportMetaOutsideModule: {
    message: `import.meta may appear only with 'sourceType: "module"'`,
    code: ParseErrorCode.SourceTypeModuleError
  },
  ImportOutsideModule: {
    message: `'import' and 'export' may appear only with 'sourceType: "module"'`,
    code: ParseErrorCode.SourceTypeModuleError
  }
};
const NodeDescriptions = {
  ArrayPattern: "array destructuring pattern",
  AssignmentExpression: "assignment expression",
  AssignmentPattern: "assignment expression",
  ArrowFunctionExpression: "arrow function expression",
  ConditionalExpression: "conditional expression",
  CatchClause: "catch clause",
  ForOfStatement: "for-of statement",
  ForInStatement: "for-in statement",
  ForStatement: "for-loop",
  FormalParameters: "function parameter list",
  Identifier: "identifier",
  ImportSpecifier: "import specifier",
  ImportDefaultSpecifier: "import default specifier",
  ImportNamespaceSpecifier: "import namespace specifier",
  ObjectPattern: "object destructuring pattern",
  ParenthesizedExpression: "parenthesized expression",
  RestElement: "rest element",
  UpdateExpression: {
    true: "prefix operation",
    false: "postfix operation"
  },
  VariableDeclarator: "variable declaration",
  YieldExpression: "yield expression"
};
const toNodeDescription = ({
  type,
  prefix
}) => type === "UpdateExpression" ? NodeDescriptions.UpdateExpression[String(prefix)] : NodeDescriptions[type];
var StandardErrors = {
  AccessorIsGenerator: ({
    kind
  }) => `A ${kind}ter cannot be a generator.`,
  ArgumentsInClass: "'arguments' is only allowed in functions and class methods.",
  AsyncFunctionInSingleStatementContext: "Async functions can only be declared at the top level or inside a block.",
  AwaitBindingIdentifier: "Can not use 'await' as identifier inside an async function.",
  AwaitBindingIdentifierInStaticBlock: "Can not use 'await' as identifier inside a static block.",
  AwaitExpressionFormalParameter: "'await' is not allowed in async function parameters.",
  AwaitInUsingBinding: "'await' is not allowed to be used as a name in 'using' declarations.",
  AwaitNotInAsyncContext: "'await' is only allowed within async functions and at the top levels of modules.",
  AwaitNotInAsyncFunction: "'await' is only allowed within async functions.",
  BadGetterArity: "A 'get' accessor must not have any formal parameters.",
  BadSetterArity: "A 'set' accessor must have exactly one formal parameter.",
  BadSetterRestParameter: "A 'set' accessor function argument must not be a rest parameter.",
  ConstructorClassField: "Classes may not have a field named 'constructor'.",
  ConstructorClassPrivateField: "Classes may not have a private field named '#constructor'.",
  ConstructorIsAccessor: "Class constructor may not be an accessor.",
  ConstructorIsAsync: "Constructor can't be an async function.",
  ConstructorIsGenerator: "Constructor can't be a generator.",
  DeclarationMissingInitializer: ({
    kind
  }) => `Missing initializer in ${kind} declaration.`,
  DecoratorArgumentsOutsideParentheses: "Decorator arguments must be moved inside parentheses: use '@(decorator(args))' instead of '@(decorator)(args)'.",
  DecoratorBeforeExport: "Decorators must be placed *before* the 'export' keyword. Remove the 'decoratorsBeforeExport: true' option to use the 'export @decorator class {}' syntax.",
  DecoratorsBeforeAfterExport: "Decorators can be placed *either* before or after the 'export' keyword, but not in both locations at the same time.",
  DecoratorConstructor: "Decorators can't be used with a constructor. Did you mean '@dec class { ... }'?",
  DecoratorExportClass: "Decorators must be placed *after* the 'export' keyword. Remove the 'decoratorsBeforeExport: false' option to use the '@decorator export class {}' syntax.",
  DecoratorSemicolon: "Decorators must not be followed by a semicolon.",
  DecoratorStaticBlock: "Decorators can't be used with a static block.",
  DeletePrivateField: "Deleting a private field is not allowed.",
  DestructureNamedImport: "ES2015 named imports do not destructure. Use another statement for destructuring after the import.",
  DuplicateConstructor: "Duplicate constructor in the same class.",
  DuplicateDefaultExport: "Only one default export allowed per module.",
  DuplicateExport: ({
    exportName
  }) => `\`${exportName}\` has already been exported. Exported identifiers must be unique.`,
  DuplicateProto: "Redefinition of __proto__ property.",
  DuplicateRegExpFlags: "Duplicate regular expression flag.",
  ElementAfterRest: "Rest element must be last element.",
  EscapedCharNotAnIdentifier: "Invalid Unicode escape.",
  ExportBindingIsString: ({
    localName,
    exportName
  }) => `A string literal cannot be used as an exported binding without \`from\`.\n- Did you mean \`export { '${localName}' as '${exportName}' } from 'some-module'\`?`,
  ExportDefaultFromAsIdentifier: "'from' is not allowed as an identifier after 'export default'.",
  ForInOfLoopInitializer: ({
    type
  }) => `'${type === "ForInStatement" ? "for-in" : "for-of"}' loop variable declaration may not have an initializer.`,
  ForInUsing: "For-in loop may not start with 'using' declaration.",
  ForOfAsync: "The left-hand side of a for-of loop may not be 'async'.",
  ForOfLet: "The left-hand side of a for-of loop may not start with 'let'.",
  GeneratorInSingleStatementContext: "Generators can only be declared at the top level or inside a block.",
  IllegalBreakContinue: ({
    type
  }) => `Unsyntactic ${type === "BreakStatement" ? "break" : "continue"}.`,
  IllegalLanguageModeDirective: "Illegal 'use strict' directive in function with non-simple parameter list.",
  IllegalReturn: "'return' outside of function.",
  ImportBindingIsString: ({
    importName
  }) => `A string literal cannot be used as an imported binding.\n- Did you mean \`import { "${importName}" as foo }\`?`,
  ImportCallArgumentTrailingComma: "Trailing comma is disallowed inside import(...) arguments.",
  ImportCallArity: ({
    maxArgumentCount
  }) => `\`import()\` requires exactly ${maxArgumentCount === 1 ? "one argument" : "one or two arguments"}.`,
  ImportCallNotNewExpression: "Cannot use new with import(...).",
  ImportCallSpreadArgument: "`...` is not allowed in `import()`.",
  ImportJSONBindingNotDefault: "A JSON module can only be imported with `default`.",
  ImportReflectionHasAssertion: "`import module x` cannot have assertions.",
  ImportReflectionNotBinding: 'Only `import module x from "./module"` is valid.',
  IncompatibleRegExpUVFlags: "The 'u' and 'v' regular expression flags cannot be enabled at the same time.",
  InvalidBigIntLiteral: "Invalid BigIntLiteral.",
  InvalidCodePoint: "Code point out of bounds.",
  InvalidCoverInitializedName: "Invalid shorthand property initializer.",
  InvalidDecimal: "Invalid decimal.",
  InvalidDigit: ({
    radix
  }) => `Expected number in radix ${radix}.`,
  InvalidEscapeSequence: "Bad character escape sequence.",
  InvalidEscapeSequenceTemplate: "Invalid escape sequence in template.",
  InvalidEscapedReservedWord: ({
    reservedWord
  }) => `Escape sequence in keyword ${reservedWord}.`,
  InvalidIdentifier: ({
    identifierName
  }) => `Invalid identifier ${identifierName}.`,
  InvalidLhs: ({
    ancestor
  }) => `Invalid left-hand side in ${toNodeDescription(ancestor)}.`,
  InvalidLhsBinding: ({
    ancestor
  }) => `Binding invalid left-hand side in ${toNodeDescription(ancestor)}.`,
  InvalidNumber: "Invalid number.",
  InvalidOrMissingExponent: "Floating-point numbers require a valid exponent after the 'e'.",
  InvalidOrUnexpectedToken: ({
    unexpected
  }) => `Unexpected character '${unexpected}'.`,
  InvalidParenthesizedAssignment: "Invalid parenthesized assignment pattern.",
  InvalidPrivateFieldResolution: ({
    identifierName
  }) => `Private name #${identifierName} is not defined.`,
  InvalidPropertyBindingPattern: "Binding member expression.",
  InvalidRecordProperty: "Only properties and spread elements are allowed in record definitions.",
  InvalidRestAssignmentPattern: "Invalid rest operator's argument.",
  LabelRedeclaration: ({
    labelName
  }) => `Label '${labelName}' is already declared.`,
  LetInLexicalBinding: "'let' is not allowed to be used as a name in 'let' or 'const' declarations.",
  LineTerminatorBeforeArrow: "No line break is allowed before '=>'.",
  MalformedRegExpFlags: "Invalid regular expression flag.",
  MissingClassName: "A class name is required.",
  MissingEqInAssignment: "Only '=' operator can be used for specifying default value.",
  MissingSemicolon: "Missing semicolon.",
  MissingPlugin: ({
    missingPlugin
  }) => `This experimental syntax requires enabling the parser plugin: ${missingPlugin.map(name => JSON.stringify(name)).join(", ")}.`,
  MissingOneOfPlugins: ({
    missingPlugin
  }) => `This experimental syntax requires enabling one of the following parser plugin(s): ${missingPlugin.map(name => JSON.stringify(name)).join(", ")}.`,
  MissingUnicodeEscape: "Expecting Unicode escape sequence \\uXXXX.",
  MixingCoalesceWithLogical: "Nullish coalescing operator(??) requires parens when mixing with logical operators.",
  ModuleAttributeDifferentFromType: "The only accepted module attribute is `type`.",
  ModuleAttributeInvalidValue: "Only string literals are allowed as module attribute values.",
  ModuleAttributesWithDuplicateKeys: ({
    key
  }) => `Duplicate key "${key}" is not allowed in module attributes.`,
  ModuleExportNameHasLoneSurrogate: ({
    surrogateCharCode
  }) => `An export name cannot include a lone surrogate, found '\\u${surrogateCharCode.toString(16)}'.`,
  ModuleExportUndefined: ({
    localName
  }) => `Export '${localName}' is not defined.`,
  MultipleDefaultsInSwitch: "Multiple default clauses.",
  NewlineAfterThrow: "Illegal newline after throw.",
  NoCatchOrFinally: "Missing catch or finally clause.",
  NumberIdentifier: "Identifier directly after number.",
  NumericSeparatorInEscapeSequence: "Numeric separators are not allowed inside unicode escape sequences or hex escape sequences.",
  ObsoleteAwaitStar: "'await*' has been removed from the async functions proposal. Use Promise.all() instead.",
  OptionalChainingNoNew: "Constructors in/after an Optional Chain are not allowed.",
  OptionalChainingNoTemplate: "Tagged Template Literals are not allowed in optionalChain.",
  OverrideOnConstructor: "'override' modifier cannot appear on a constructor declaration.",
  ParamDupe: "Argument name clash.",
  PatternHasAccessor: "Object pattern can't contain getter or setter.",
  PatternHasMethod: "Object pattern can't contain methods.",
  PrivateInExpectedIn: ({
    identifierName
  }) => `Private names are only allowed in property accesses (\`obj.#${identifierName}\`) or in \`in\` expressions (\`#${identifierName} in obj\`).`,
  PrivateNameRedeclaration: ({
    identifierName
  }) => `Duplicate private name #${identifierName}.`,
  RecordExpressionBarIncorrectEndSyntaxType: "Record expressions ending with '|}' are only allowed when the 'syntaxType' option of the 'recordAndTuple' plugin is set to 'bar'.",
  RecordExpressionBarIncorrectStartSyntaxType: "Record expressions starting with '{|' are only allowed when the 'syntaxType' option of the 'recordAndTuple' plugin is set to 'bar'.",
  RecordExpressionHashIncorrectStartSyntaxType: "Record expressions starting with '#{' are only allowed when the 'syntaxType' option of the 'recordAndTuple' plugin is set to 'hash'.",
  RecordNoProto: "'__proto__' is not allowed in Record expressions.",
  RestTrailingComma: "Unexpected trailing comma after rest element.",
  SloppyFunction: "In non-strict mode code, functions can only be declared at top level or inside a block.",
  SloppyFunctionAnnexB: "In non-strict mode code, functions can only be declared at top level, inside a block, or as the body of an if statement.",
  StaticPrototype: "Classes may not have static property named prototype.",
  SuperNotAllowed: "`super()` is only valid inside a class constructor of a subclass. Maybe a typo in the method name ('constructor') or not extending another class?",
  SuperPrivateField: "Private fields can't be accessed on super.",
  TrailingDecorator: "Decorators must be attached to a class element.",
  TupleExpressionBarIncorrectEndSyntaxType: "Tuple expressions ending with '|]' are only allowed when the 'syntaxType' option of the 'recordAndTuple' plugin is set to 'bar'.",
  TupleExpressionBarIncorrectStartSyntaxType: "Tuple expressions starting with '[|' are only allowed when the 'syntaxType' option of the 'recordAndTuple' plugin is set to 'bar'.",
  TupleExpressionHashIncorrectStartSyntaxType: "Tuple expressions starting with '#[' are only allowed when the 'syntaxType' option of the 'recordAndTuple' plugin is set to 'hash'.",
  UnexpectedArgumentPlaceholder: "Unexpected argument placeholder.",
  UnexpectedAwaitAfterPipelineBody: 'Unexpected "await" after pipeline body; await must have parentheses in minimal proposal.',
  UnexpectedDigitAfterHash: "Unexpected digit after hash token.",
  UnexpectedImportExport: "'import' and 'export' may only appear at the top level.",
  UnexpectedKeyword: ({
    keyword
  }) => `Unexpected keyword '${keyword}'.`,
  UnexpectedLeadingDecorator: "Leading decorators must be attached to a class declaration.",
  UnexpectedLexicalDeclaration: "Lexical declaration cannot appear in a single-statement context.",
  UnexpectedNewTarget: "`new.target` can only be used in functions or class properties.",
  UnexpectedNumericSeparator: "A numeric separator is only allowed between two digits.",
  UnexpectedPrivateField: "Unexpected private name.",
  UnexpectedReservedWord: ({
    reservedWord
  }) => `Unexpected reserved word '${reservedWord}'.`,
  UnexpectedSuper: "'super' is only allowed in object methods and classes.",
  UnexpectedToken: ({
    expected,
    unexpected
  }) => `Unexpected token${unexpected ? ` '${unexpected}'.` : ""}${expected ? `, expected "${expected}"` : ""}`,
  UnexpectedTokenUnaryExponentiation: "Illegal expression. Wrap left hand side or entire exponentiation in parentheses.",
  UnexpectedUsingDeclaration: "Using declaration cannot appear in the top level when source type is `script`.",
  UnsupportedBind: "Binding should be performed on object property.",
  UnsupportedDecoratorExport: "A decorated export must export a class declaration.",
  UnsupportedDefaultExport: "Only expressions, functions or classes are allowed as the `default` export.",
  UnsupportedImport: "`import` can only be used in `import()` or `import.meta`.",
  UnsupportedMetaProperty: ({
    target,
    onlyValidPropertyName
  }) => `The only valid meta property for ${target} is ${target}.${onlyValidPropertyName}.`,
  UnsupportedParameterDecorator: "Decorators cannot be used to decorate parameters.",
  UnsupportedPropertyDecorator: "Decorators cannot be used to decorate object literal properties.",
  UnsupportedSuper: "'super' can only be used with function calls (i.e. super()) or in property accesses (i.e. super.prop or super[prop]).",
  UnterminatedComment: "Unterminated comment.",
  UnterminatedRegExp: "Unterminated regular expression.",
  UnterminatedString: "Unterminated string constant.",
  UnterminatedTemplate: "Unterminated template.",
  UsingDeclarationHasBindingPattern: "Using declaration cannot have destructuring patterns.",
  VarRedeclaration: ({
    identifierName
  }) => `Identifier '${identifierName}' has already been declared.`,
  YieldBindingIdentifier: "Can not use 'yield' as identifier inside a generator.",
  YieldInParameter: "Yield expression is not allowed in formal parameters.",
  ZeroDigitNumericSeparator: "Numeric separator can not be used after leading 0."
};
var StrictModeErrors = {
  StrictDelete: "Deleting local variable in strict mode.",
  StrictEvalArguments: ({
    referenceName
  }) => `Assigning to '${referenceName}' in strict mode.`,
  StrictEvalArgumentsBinding: ({
    bindingName
  }) => `Binding '${bindingName}' in strict mode.`,
  StrictFunction: "In strict mode code, functions can only be declared at top level or inside a block.",
  StrictNumericEscape: "The only valid numeric escape in strict mode is '\\0'.",
  StrictOctalLiteral: "Legacy octal literals are not allowed in strict mode.",
  StrictWith: "'with' in strict mode."
};
const UnparenthesizedPipeBodyDescriptions = new Set(["ArrowFunctionExpression", "AssignmentExpression", "ConditionalExpression", "YieldExpression"]);
var PipelineOperatorErrors = {
  PipeBodyIsTighter: "Unexpected yield after pipeline body; any yield expression acting as Hack-style pipe body must be parenthesized due to its loose operator precedence.",
  PipeTopicRequiresHackPipes: 'Topic reference is used, but the pipelineOperator plugin was not passed a "proposal": "hack" or "smart" option.',
  PipeTopicUnbound: "Topic reference is unbound; it must be inside a pipe body.",
  PipeTopicUnconfiguredToken: ({
    token
  }) => `Invalid topic token ${token}. In order to use ${token} as a topic reference, the pipelineOperator plugin must be configured with { "proposal": "hack", "topicToken": "${token}" }.`,
  PipeTopicUnused: "Hack-style pipe body does not contain a topic reference; Hack-style pipes must use topic at least once.",
  PipeUnparenthesizedBody: ({
    type
  }) => `Hack-style pipe body cannot be an unparenthesized ${toNodeDescription({
    type
  })}; please wrap it in parentheses.`,
  PipelineBodyNoArrow: 'Unexpected arrow "=>" after pipeline body; arrow function in pipeline body must be parenthesized.',
  PipelineBodySequenceExpression: "Pipeline body may not be a comma-separated sequence expression.",
  PipelineHeadSequenceExpression: "Pipeline head should not be a comma-separated sequence expression.",
  PipelineTopicUnused: "Pipeline is in topic style but does not use topic reference.",
  PrimaryTopicNotAllowed: "Topic reference was used in a lexical context without topic binding.",
  PrimaryTopicRequiresSmartPipeline: 'Topic reference is used, but the pipelineOperator plugin was not passed a "proposal": "hack" or "smart" option.'
};
const _excluded$1 = ["toMessage"],
  _excluded2$1 = ["message"];
function toParseErrorConstructor(_ref) {
  let {
      toMessage
    } = _ref,
    properties = _objectWithoutPropertiesLoose(_ref, _excluded$1);
  return function constructor({
    loc,
    details
  }) {
    return instantiate(SyntaxError, Object.assign({}, properties, {
      loc
    }), {
      clone(overrides = {}) {
        const loc = overrides.loc || {};
        return constructor({
          loc: new Position("line" in loc ? loc.line : this.loc.line, "column" in loc ? loc.column : this.loc.column, "index" in loc ? loc.index : this.loc.index),
          details: Object.assign({}, this.details, overrides.details)
        });
      },
      details: {
        value: details,
        enumerable: false
      },
      message: {
        get() {
          return `${toMessage(this.details)} (${this.loc.line}:${this.loc.column})`;
        },
        set(value) {
          Object.defineProperty(this, "message", {
            value
          });
        }
      },
      pos: {
        reflect: "loc.index",
        enumerable: true
      },
      missingPlugin: "missingPlugin" in details && {
        reflect: "details.missingPlugin",
        enumerable: true
      }
    });
  };
}
function ParseErrorEnum(argument, syntaxPlugin) {
  if (Array.isArray(argument)) {
    return parseErrorTemplates => ParseErrorEnum(parseErrorTemplates, argument[0]);
  }
  const ParseErrorConstructors = {};
  for (const reasonCode of Object.keys(argument)) {
    const template = argument[reasonCode];
    const _ref2 = typeof template === "string" ? {
        message: () => template
      } : typeof template === "function" ? {
        message: template
      } : template,
      {
        message
      } = _ref2,
      rest = _objectWithoutPropertiesLoose(_ref2, _excluded2$1);
    const toMessage = typeof message === "string" ? () => message : message;
    ParseErrorConstructors[reasonCode] = toParseErrorConstructor(Object.assign({
      code: ParseErrorCode.SyntaxError,
      reasonCode,
      toMessage
    }, syntaxPlugin ? {
      syntaxPlugin
    } : {}, rest));
  }
  return ParseErrorConstructors;
}
const Errors = Object.assign({}, ParseErrorEnum(ModuleErrors), ParseErrorEnum(StandardErrors), ParseErrorEnum(StrictModeErrors), ParseErrorEnum`pipelineOperator`(PipelineOperatorErrors));
const {
  defineProperty
} = Object;
const toUnenumerable = (object, key) => defineProperty(object, key, {
  enumerable: false,
  value: object[key]
});
function toESTreeLocation(node) {
  node.loc.start && toUnenumerable(node.loc.start, "index");
  node.loc.end && toUnenumerable(node.loc.end, "index");
  return node;
}
var estree = superClass => class ESTreeParserMixin extends superClass {
  parse() {
    const file = toESTreeLocation(super.parse());
    if (this.options.tokens) {
      file.tokens = file.tokens.map(toESTreeLocation);
    }
    return file;
  }
  parseRegExpLiteral({
    pattern,
    flags
  }) {
    let regex = null;
    try {
      regex = new RegExp(pattern, flags);
    } catch (e) {}
    const node = this.estreeParseLiteral(regex);
    node.regex = {
      pattern,
      flags
    };
    return node;
  }
  parseBigIntLiteral(value) {
    let bigInt;
    try {
      bigInt = BigInt(value);
    } catch (_unused) {
      bigInt = null;
    }
    const node = this.estreeParseLiteral(bigInt);
    node.bigint = String(node.value || value);
    return node;
  }
  parseDecimalLiteral(value) {
    const decimal = null;
    const node = this.estreeParseLiteral(decimal);
    node.decimal = String(node.value || value);
    return node;
  }
  estreeParseLiteral(value) {
    return this.parseLiteral(value, "Literal");
  }
  parseStringLiteral(value) {
    return this.estreeParseLiteral(value);
  }
  parseNumericLiteral(value) {
    return this.estreeParseLiteral(value);
  }
  parseNullLiteral() {
    return this.estreeParseLiteral(null);
  }
  parseBooleanLiteral(value) {
    return this.estreeParseLiteral(value);
  }
  directiveToStmt(directive) {
    const expression = directive.value;
    delete directive.value;
    expression.type = "Literal";
    expression.raw = expression.extra.raw;
    expression.value = expression.extra.expressionValue;
    const stmt = directive;
    stmt.type = "ExpressionStatement";
    stmt.expression = expression;
    stmt.directive = expression.extra.rawValue;
    delete expression.extra;
    return stmt;
  }
  initFunction(node, isAsync) {
    super.initFunction(node, isAsync);
    node.expression = false;
  }
  checkDeclaration(node) {
    if (node != null && this.isObjectProperty(node)) {
      this.checkDeclaration(node.value);
    } else {
      super.checkDeclaration(node);
    }
  }
  getObjectOrClassMethodParams(method) {
    return method.value.params;
  }
  isValidDirective(stmt) {
    var _stmt$expression$extr;
    return stmt.type === "ExpressionStatement" && stmt.expression.type === "Literal" && typeof stmt.expression.value === "string" && !((_stmt$expression$extr = stmt.expression.extra) != null && _stmt$expression$extr.parenthesized);
  }
  parseBlockBody(node, allowDirectives, topLevel, end, afterBlockParse) {
    super.parseBlockBody(node, allowDirectives, topLevel, end, afterBlockParse);
    const directiveStatements = node.directives.map(d => this.directiveToStmt(d));
    node.body = directiveStatements.concat(node.body);
    delete node.directives;
  }
  pushClassMethod(classBody, method, isGenerator, isAsync, isConstructor, allowsDirectSuper) {
    this.parseMethod(method, isGenerator, isAsync, isConstructor, allowsDirectSuper, "ClassMethod", true);
    if (method.typeParameters) {
      method.value.typeParameters = method.typeParameters;
      delete method.typeParameters;
    }
    classBody.body.push(method);
  }
  parsePrivateName() {
    const node = super.parsePrivateName();
    {
      if (!this.getPluginOption("estree", "classFeatures")) {
        return node;
      }
    }
    return this.convertPrivateNameToPrivateIdentifier(node);
  }
  convertPrivateNameToPrivateIdentifier(node) {
    const name = super.getPrivateNameSV(node);
    node = node;
    delete node.id;
    node.name = name;
    node.type = "PrivateIdentifier";
    return node;
  }
  isPrivateName(node) {
    {
      if (!this.getPluginOption("estree", "classFeatures")) {
        return super.isPrivateName(node);
      }
    }
    return node.type === "PrivateIdentifier";
  }
  getPrivateNameSV(node) {
    {
      if (!this.getPluginOption("estree", "classFeatures")) {
        return super.getPrivateNameSV(node);
      }
    }
    return node.name;
  }
  parseLiteral(value, type) {
    const node = super.parseLiteral(value, type);
    node.raw = node.extra.raw;
    delete node.extra;
    return node;
  }
  parseFunctionBody(node, allowExpression, isMethod = false) {
    super.parseFunctionBody(node, allowExpression, isMethod);
    node.expression = node.body.type !== "BlockStatement";
  }
  parseMethod(node, isGenerator, isAsync, isConstructor, allowDirectSuper, type, inClassScope = false) {
    let funcNode = this.startNode();
    funcNode.kind = node.kind;
    funcNode = super.parseMethod(funcNode, isGenerator, isAsync, isConstructor, allowDirectSuper, type, inClassScope);
    funcNode.type = "FunctionExpression";
    delete funcNode.kind;
    node.value = funcNode;
    if (type === "ClassPrivateMethod") {
      node.computed = false;
    }
    return this.finishNode(node, "MethodDefinition");
  }
  parseClassProperty(...args) {
    const propertyNode = super.parseClassProperty(...args);
    {
      if (!this.getPluginOption("estree", "classFeatures")) {
        return propertyNode;
      }
    }
    propertyNode.type = "PropertyDefinition";
    return propertyNode;
  }
  parseClassPrivateProperty(...args) {
    const propertyNode = super.parseClassPrivateProperty(...args);
    {
      if (!this.getPluginOption("estree", "classFeatures")) {
        return propertyNode;
      }
    }
    propertyNode.type = "PropertyDefinition";
    propertyNode.computed = false;
    return propertyNode;
  }
  parseObjectMethod(prop, isGenerator, isAsync, isPattern, isAccessor) {
    const node = super.parseObjectMethod(prop, isGenerator, isAsync, isPattern, isAccessor);
    if (node) {
      node.type = "Property";
      if (node.kind === "method") {
        node.kind = "init";
      }
      node.shorthand = false;
    }
    return node;
  }
  parseObjectProperty(prop, startLoc, isPattern, refExpressionErrors) {
    const node = super.parseObjectProperty(prop, startLoc, isPattern, refExpressionErrors);
    if (node) {
      node.kind = "init";
      node.type = "Property";
    }
    return node;
  }
  isValidLVal(type, isUnparenthesizedInAssign, binding) {
    return type === "Property" ? "value" : super.isValidLVal(type, isUnparenthesizedInAssign, binding);
  }
  isAssignable(node, isBinding) {
    if (node != null && this.isObjectProperty(node)) {
      return this.isAssignable(node.value, isBinding);
    }
    return super.isAssignable(node, isBinding);
  }
  toAssignable(node, isLHS = false) {
    if (node != null && this.isObjectProperty(node)) {
      const {
        key,
        value
      } = node;
      if (this.isPrivateName(key)) {
        this.classScope.usePrivateName(this.getPrivateNameSV(key), key.loc.start);
      }
      this.toAssignable(value, isLHS);
    } else {
      super.toAssignable(node, isLHS);
    }
  }
  toAssignableObjectExpressionProp(prop, isLast, isLHS) {
    if (prop.kind === "get" || prop.kind === "set") {
      this.raise(Errors.PatternHasAccessor, {
        at: prop.key
      });
    } else if (prop.method) {
      this.raise(Errors.PatternHasMethod, {
        at: prop.key
      });
    } else {
      super.toAssignableObjectExpressionProp(prop, isLast, isLHS);
    }
  }
  finishCallExpression(unfinished, optional) {
    const node = super.finishCallExpression(unfinished, optional);
    if (node.callee.type === "Import") {
      node.type = "ImportExpression";
      node.source = node.arguments[0];
      if (this.hasPlugin("importAssertions")) {
        var _node$arguments$;
        node.attributes = (_node$arguments$ = node.arguments[1]) != null ? _node$arguments$ : null;
      }
      delete node.arguments;
      delete node.callee;
    }
    return node;
  }
  toReferencedArguments(node) {
    if (node.type === "ImportExpression") {
      return;
    }
    super.toReferencedArguments(node);
  }
  parseExport(unfinished, decorators) {
    const exportStartLoc = this.state.lastTokStartLoc;
    const node = super.parseExport(unfinished, decorators);
    switch (node.type) {
      case "ExportAllDeclaration":
        node.exported = null;
        break;
      case "ExportNamedDeclaration":
        if (node.specifiers.length === 1 && node.specifiers[0].type === "ExportNamespaceSpecifier") {
          node.type = "ExportAllDeclaration";
          node.exported = node.specifiers[0].exported;
          delete node.specifiers;
        }
      case "ExportDefaultDeclaration":
        {
          var _declaration$decorato;
          const {
            declaration
          } = node;
          if ((declaration == null ? void 0 : declaration.type) === "ClassDeclaration" && ((_declaration$decorato = declaration.decorators) == null ? void 0 : _declaration$decorato.length) > 0 && declaration.start === node.start) {
            this.resetStartLocation(node, exportStartLoc);
          }
        }
        break;
    }
    return node;
  }
  parseSubscript(base, startLoc, noCalls, state) {
    const node = super.parseSubscript(base, startLoc, noCalls, state);
    if (state.optionalChainMember) {
      if (node.type === "OptionalMemberExpression" || node.type === "OptionalCallExpression") {
        node.type = node.type.substring(8);
      }
      if (state.stop) {
        const chain = this.startNodeAtNode(node);
        chain.expression = node;
        return this.finishNode(chain, "ChainExpression");
      }
    } else if (node.type === "MemberExpression" || node.type === "CallExpression") {
      node.optional = false;
    }
    return node;
  }
  hasPropertyAsPrivateName(node) {
    if (node.type === "ChainExpression") {
      node = node.expression;
    }
    return super.hasPropertyAsPrivateName(node);
  }
  isObjectProperty(node) {
    return node.type === "Property" && node.kind === "init" && !node.method;
  }
  isObjectMethod(node) {
    return node.method || node.kind === "get" || node.kind === "set";
  }
  finishNodeAt(node, type, endLoc) {
    return toESTreeLocation(super.finishNodeAt(node, type, endLoc));
  }
  resetStartLocation(node, startLoc) {
    super.resetStartLocation(node, startLoc);
    toESTreeLocation(node);
  }
  resetEndLocation(node, endLoc = this.state.lastTokEndLoc) {
    super.resetEndLocation(node, endLoc);
    toESTreeLocation(node);
  }
};
let nonASCIIidentifierStartChars = "\xaa\xb5\xba\xc0-\xd6\xd8-\xf6\xf8-\u02c1\u02c6-\u02d1\u02e0-\u02e4\u02ec\u02ee\u0370-\u0374\u0376\u0377\u037a-\u037d\u037f\u0386\u0388-\u038a\u038c\u038e-\u03a1\u03a3-\u03f5\u03f7-\u0481\u048a-\u052f\u0531-\u0556\u0559\u0560-\u0588\u05d0-\u05ea\u05ef-\u05f2\u0620-\u064a\u066e\u066f\u0671-\u06d3\u06d5\u06e5\u06e6\u06ee\u06ef\u06fa-\u06fc\u06ff\u0710\u0712-\u072f\u074d-\u07a5\u07b1\u07ca-\u07ea\u07f4\u07f5\u07fa\u0800-\u0815\u081a\u0824\u0828\u0840-\u0858\u0860-\u086a\u0870-\u0887\u0889-\u088e\u08a0-\u08c9\u0904-\u0939\u093d\u0950\u0958-\u0961\u0971-\u0980\u0985-\u098c\u098f\u0990\u0993-\u09a8\u09aa-\u09b0\u09b2\u09b6-\u09b9\u09bd\u09ce\u09dc\u09dd\u09df-\u09e1\u09f0\u09f1\u09fc\u0a05-\u0a0a\u0a0f\u0a10\u0a13-\u0a28\u0a2a-\u0a30\u0a32\u0a33\u0a35\u0a36\u0a38\u0a39\u0a59-\u0a5c\u0a5e\u0a72-\u0a74\u0a85-\u0a8d\u0a8f-\u0a91\u0a93-\u0aa8\u0aaa-\u0ab0\u0ab2\u0ab3\u0ab5-\u0ab9\u0abd\u0ad0\u0ae0\u0ae1\u0af9\u0b05-\u0b0c\u0b0f\u0b10\u0b13-\u0b28\u0b2a-\u0b30\u0b32\u0b33\u0b35-\u0b39\u0b3d\u0b5c\u0b5d\u0b5f-\u0b61\u0b71\u0b83\u0b85-\u0b8a\u0b8e-\u0b90\u0b92-\u0b95\u0b99\u0b9a\u0b9c\u0b9e\u0b9f\u0ba3\u0ba4\u0ba8-\u0baa\u0bae-\u0bb9\u0bd0\u0c05-\u0c0c\u0c0e-\u0c10\u0c12-\u0c28\u0c2a-\u0c39\u0c3d\u0c58-\u0c5a\u0c5d\u0c60\u0c61\u0c80\u0c85-\u0c8c\u0c8e-\u0c90\u0c92-\u0ca8\u0caa-\u0cb3\u0cb5-\u0cb9\u0cbd\u0cdd\u0cde\u0ce0\u0ce1\u0cf1\u0cf2\u0d04-\u0d0c\u0d0e-\u0d10\u0d12-\u0d3a\u0d3d\u0d4e\u0d54-\u0d56\u0d5f-\u0d61\u0d7a-\u0d7f\u0d85-\u0d96\u0d9a-\u0db1\u0db3-\u0dbb\u0dbd\u0dc0-\u0dc6\u0e01-\u0e30\u0e32\u0e33\u0e40-\u0e46\u0e81\u0e82\u0e84\u0e86-\u0e8a\u0e8c-\u0ea3\u0ea5\u0ea7-\u0eb0\u0eb2\u0eb3\u0ebd\u0ec0-\u0ec4\u0ec6\u0edc-\u0edf\u0f00\u0f40-\u0f47\u0f49-\u0f6c\u0f88-\u0f8c\u1000-\u102a\u103f\u1050-\u1055\u105a-\u105d\u1061\u1065\u1066\u106e-\u1070\u1075-\u1081\u108e\u10a0-\u10c5\u10c7\u10cd\u10d0-\u10fa\u10fc-\u1248\u124a-\u124d\u1250-\u1256\u1258\u125a-\u125d\u1260-\u1288\u128a-\u128d\u1290-\u12b0\u12b2-\u12b5\u12b8-\u12be\u12c0\u12c2-\u12c5\u12c8-\u12d6\u12d8-\u1310\u1312-\u1315\u1318-\u135a\u1380-\u138f\u13a0-\u13f5\u13f8-\u13fd\u1401-\u166c\u166f-\u167f\u1681-\u169a\u16a0-\u16ea\u16ee-\u16f8\u1700-\u1711\u171f-\u1731\u1740-\u1751\u1760-\u176c\u176e-\u1770\u1780-\u17b3\u17d7\u17dc\u1820-\u1878\u1880-\u18a8\u18aa\u18b0-\u18f5\u1900-\u191e\u1950-\u196d\u1970-\u1974\u1980-\u19ab\u19b0-\u19c9\u1a00-\u1a16\u1a20-\u1a54\u1aa7\u1b05-\u1b33\u1b45-\u1b4c\u1b83-\u1ba0\u1bae\u1baf\u1bba-\u1be5\u1c00-\u1c23\u1c4d-\u1c4f\u1c5a-\u1c7d\u1c80-\u1c88\u1c90-\u1cba\u1cbd-\u1cbf\u1ce9-\u1cec\u1cee-\u1cf3\u1cf5\u1cf6\u1cfa\u1d00-\u1dbf\u1e00-\u1f15\u1f18-\u1f1d\u1f20-\u1f45\u1f48-\u1f4d\u1f50-\u1f57\u1f59\u1f5b\u1f5d\u1f5f-\u1f7d\u1f80-\u1fb4\u1fb6-\u1fbc\u1fbe\u1fc2-\u1fc4\u1fc6-\u1fcc\u1fd0-\u1fd3\u1fd6-\u1fdb\u1fe0-\u1fec\u1ff2-\u1ff4\u1ff6-\u1ffc\u2071\u207f\u2090-\u209c\u2102\u2107\u210a-\u2113\u2115\u2118-\u211d\u2124\u2126\u2128\u212a-\u2139\u213c-\u213f\u2145-\u2149\u214e\u2160-\u2188\u2c00-\u2ce4\u2ceb-\u2cee\u2cf2\u2cf3\u2d00-\u2d25\u2d27\u2d2d\u2d30-\u2d67\u2d6f\u2d80-\u2d96\u2da0-\u2da6\u2da8-\u2dae\u2db0-\u2db6\u2db8-\u2dbe\u2dc0-\u2dc6\u2dc8-\u2dce\u2dd0-\u2dd6\u2dd8-\u2dde\u3005-\u3007\u3021-\u3029\u3031-\u3035\u3038-\u303c\u3041-\u3096\u309b-\u309f\u30a1-\u30fa\u30fc-\u30ff\u3105-\u312f\u3131-\u318e\u31a0-\u31bf\u31f0-\u31ff\u3400-\u4dbf\u4e00-\ua48c\ua4d0-\ua4fd\ua500-\ua60c\ua610-\ua61f\ua62a\ua62b\ua640-\ua66e\ua67f-\ua69d\ua6a0-\ua6ef\ua717-\ua71f\ua722-\ua788\ua78b-\ua7ca\ua7d0\ua7d1\ua7d3\ua7d5-\ua7d9\ua7f2-\ua801\ua803-\ua805\ua807-\ua80a\ua80c-\ua822\ua840-\ua873\ua882-\ua8b3\ua8f2-\ua8f7\ua8fb\ua8fd\ua8fe\ua90a-\ua925\ua930-\ua946\ua960-\ua97c\ua984-\ua9b2\ua9cf\ua9e0-\ua9e4\ua9e6-\ua9ef\ua9fa-\ua9fe\uaa00-\uaa28\uaa40-\uaa42\uaa44-\uaa4b\uaa60-\uaa76\uaa7a\uaa7e-\uaaaf\uaab1\uaab5\uaab6\uaab9-\uaabd\uaac0\uaac2\uaadb-\uaadd\uaae0-\uaaea\uaaf2-\uaaf4\uab01-\uab06\uab09-\uab0e\uab11-\uab16\uab20-\uab26\uab28-\uab2e\uab30-\uab5a\uab5c-\uab69\uab70-\uabe2\uac00-\ud7a3\ud7b0-\ud7c6\ud7cb-\ud7fb\uf900-\ufa6d\ufa70-\ufad9\ufb00-\ufb06\ufb13-\ufb17\ufb1d\ufb1f-\ufb28\ufb2a-\ufb36\ufb38-\ufb3c\ufb3e\ufb40\ufb41\ufb43\ufb44\ufb46-\ufbb1\ufbd3-\ufd3d\ufd50-\ufd8f\ufd92-\ufdc7\ufdf0-\ufdfb\ufe70-\ufe74\ufe76-\ufefc\uff21-\uff3a\uff41-\uff5a\uff66-\uffbe\uffc2-\uffc7\uffca-\uffcf\uffd2-\uffd7\uffda-\uffdc";
let nonASCIIidentifierChars = "\u200c\u200d\xb7\u0300-\u036f\u0387\u0483-\u0487\u0591-\u05bd\u05bf\u05c1\u05c2\u05c4\u05c5\u05c7\u0610-\u061a\u064b-\u0669\u0670\u06d6-\u06dc\u06df-\u06e4\u06e7\u06e8\u06ea-\u06ed\u06f0-\u06f9\u0711\u0730-\u074a\u07a6-\u07b0\u07c0-\u07c9\u07eb-\u07f3\u07fd\u0816-\u0819\u081b-\u0823\u0825-\u0827\u0829-\u082d\u0859-\u085b\u0898-\u089f\u08ca-\u08e1\u08e3-\u0903\u093a-\u093c\u093e-\u094f\u0951-\u0957\u0962\u0963\u0966-\u096f\u0981-\u0983\u09bc\u09be-\u09c4\u09c7\u09c8\u09cb-\u09cd\u09d7\u09e2\u09e3\u09e6-\u09ef\u09fe\u0a01-\u0a03\u0a3c\u0a3e-\u0a42\u0a47\u0a48\u0a4b-\u0a4d\u0a51\u0a66-\u0a71\u0a75\u0a81-\u0a83\u0abc\u0abe-\u0ac5\u0ac7-\u0ac9\u0acb-\u0acd\u0ae2\u0ae3\u0ae6-\u0aef\u0afa-\u0aff\u0b01-\u0b03\u0b3c\u0b3e-\u0b44\u0b47\u0b48\u0b4b-\u0b4d\u0b55-\u0b57\u0b62\u0b63\u0b66-\u0b6f\u0b82\u0bbe-\u0bc2\u0bc6-\u0bc8\u0bca-\u0bcd\u0bd7\u0be6-\u0bef\u0c00-\u0c04\u0c3c\u0c3e-\u0c44\u0c46-\u0c48\u0c4a-\u0c4d\u0c55\u0c56\u0c62\u0c63\u0c66-\u0c6f\u0c81-\u0c83\u0cbc\u0cbe-\u0cc4\u0cc6-\u0cc8\u0cca-\u0ccd\u0cd5\u0cd6\u0ce2\u0ce3\u0ce6-\u0cef\u0cf3\u0d00-\u0d03\u0d3b\u0d3c\u0d3e-\u0d44\u0d46-\u0d48\u0d4a-\u0d4d\u0d57\u0d62\u0d63\u0d66-\u0d6f\u0d81-\u0d83\u0dca\u0dcf-\u0dd4\u0dd6\u0dd8-\u0ddf\u0de6-\u0def\u0df2\u0df3\u0e31\u0e34-\u0e3a\u0e47-\u0e4e\u0e50-\u0e59\u0eb1\u0eb4-\u0ebc\u0ec8-\u0ece\u0ed0-\u0ed9\u0f18\u0f19\u0f20-\u0f29\u0f35\u0f37\u0f39\u0f3e\u0f3f\u0f71-\u0f84\u0f86\u0f87\u0f8d-\u0f97\u0f99-\u0fbc\u0fc6\u102b-\u103e\u1040-\u1049\u1056-\u1059\u105e-\u1060\u1062-\u1064\u1067-\u106d\u1071-\u1074\u1082-\u108d\u108f-\u109d\u135d-\u135f\u1369-\u1371\u1712-\u1715\u1732-\u1734\u1752\u1753\u1772\u1773\u17b4-\u17d3\u17dd\u17e0-\u17e9\u180b-\u180d\u180f-\u1819\u18a9\u1920-\u192b\u1930-\u193b\u1946-\u194f\u19d0-\u19da\u1a17-\u1a1b\u1a55-\u1a5e\u1a60-\u1a7c\u1a7f-\u1a89\u1a90-\u1a99\u1ab0-\u1abd\u1abf-\u1ace\u1b00-\u1b04\u1b34-\u1b44\u1b50-\u1b59\u1b6b-\u1b73\u1b80-\u1b82\u1ba1-\u1bad\u1bb0-\u1bb9\u1be6-\u1bf3\u1c24-\u1c37\u1c40-\u1c49\u1c50-\u1c59\u1cd0-\u1cd2\u1cd4-\u1ce8\u1ced\u1cf4\u1cf7-\u1cf9\u1dc0-\u1dff\u203f\u2040\u2054\u20d0-\u20dc\u20e1\u20e5-\u20f0\u2cef-\u2cf1\u2d7f\u2de0-\u2dff\u302a-\u302f\u3099\u309a\ua620-\ua629\ua66f\ua674-\ua67d\ua69e\ua69f\ua6f0\ua6f1\ua802\ua806\ua80b\ua823-\ua827\ua82c\ua880\ua881\ua8b4-\ua8c5\ua8d0-\ua8d9\ua8e0-\ua8f1\ua8ff-\ua909\ua926-\ua92d\ua947-\ua953\ua980-\ua983\ua9b3-\ua9c0\ua9d0-\ua9d9\ua9e5\ua9f0-\ua9f9\uaa29-\uaa36\uaa43\uaa4c\uaa4d\uaa50-\uaa59\uaa7b-\uaa7d\uaab0\uaab2-\uaab4\uaab7\uaab8\uaabe\uaabf\uaac1\uaaeb-\uaaef\uaaf5\uaaf6\uabe3-\uabea\uabec\uabed\uabf0-\uabf9\ufb1e\ufe00-\ufe0f\ufe20-\ufe2f\ufe33\ufe34\ufe4d-\ufe4f\uff10-\uff19\uff3f";
const nonASCIIidentifierStart = new RegExp("[" + nonASCIIidentifierStartChars + "]");
const nonASCIIidentifier = new RegExp("[" + nonASCIIidentifierStartChars + nonASCIIidentifierChars + "]");
nonASCIIidentifierStartChars = nonASCIIidentifierChars = null;
const astralIdentifierStartCodes = [0, 11, 2, 25, 2, 18, 2, 1, 2, 14, 3, 13, 35, 122, 70, 52, 268, 28, 4, 48, 48, 31, 14, 29, 6, 37, 11, 29, 3, 35, 5, 7, 2, 4, 43, 157, 19, 35, 5, 35, 5, 39, 9, 51, 13, 10, 2, 14, 2, 6, 2, 1, 2, 10, 2, 14, 2, 6, 2, 1, 68, 310, 10, 21, 11, 7, 25, 5, 2, 41, 2, 8, 70, 5, 3, 0, 2, 43, 2, 1, 4, 0, 3, 22, 11, 22, 10, 30, 66, 18, 2, 1, 11, 21, 11, 25, 71, 55, 7, 1, 65, 0, 16, 3, 2, 2, 2, 28, 43, 28, 4, 28, 36, 7, 2, 27, 28, 53, 11, 21, 11, 18, 14, 17, 111, 72, 56, 50, 14, 50, 14, 35, 349, 41, 7, 1, 79, 28, 11, 0, 9, 21, 43, 17, 47, 20, 28, 22, 13, 52, 58, 1, 3, 0, 14, 44, 33, 24, 27, 35, 30, 0, 3, 0, 9, 34, 4, 0, 13, 47, 15, 3, 22, 0, 2, 0, 36, 17, 2, 24, 20, 1, 64, 6, 2, 0, 2, 3, 2, 14, 2, 9, 8, 46, 39, 7, 3, 1, 3, 21, 2, 6, 2, 1, 2, 4, 4, 0, 19, 0, 13, 4, 159, 52, 19, 3, 21, 2, 31, 47, 21, 1, 2, 0, 185, 46, 42, 3, 37, 47, 21, 0, 60, 42, 14, 0, 72, 26, 38, 6, 186, 43, 117, 63, 32, 7, 3, 0, 3, 7, 2, 1, 2, 23, 16, 0, 2, 0, 95, 7, 3, 38, 17, 0, 2, 0, 29, 0, 11, 39, 8, 0, 22, 0, 12, 45, 20, 0, 19, 72, 264, 8, 2, 36, 18, 0, 50, 29, 113, 6, 2, 1, 2, 37, 22, 0, 26, 5, 2, 1, 2, 31, 15, 0, 328, 18, 16, 0, 2, 12, 2, 33, 125, 0, 80, 921, 103, 110, 18, 195, 2637, 96, 16, 1071, 18, 5, 4026, 582, 8634, 568, 8, 30, 18, 78, 18, 29, 19, 47, 17, 3, 32, 20, 6, 18, 689, 63, 129, 74, 6, 0, 67, 12, 65, 1, 2, 0, 29, 6135, 9, 1237, 43, 8, 8936, 3, 2, 6, 2, 1, 2, 290, 16, 0, 30, 2, 3, 0, 15, 3, 9, 395, 2309, 106, 6, 12, 4, 8, 8, 9, 5991, 84, 2, 70, 2, 1, 3, 0, 3, 1, 3, 3, 2, 11, 2, 0, 2, 6, 2, 64, 2, 3, 3, 7, 2, 6, 2, 27, 2, 3, 2, 4, 2, 0, 4, 6, 2, 339, 3, 24, 2, 24, 2, 30, 2, 24, 2, 30, 2, 24, 2, 30, 2, 24, 2, 30, 2, 24, 2, 7, 1845, 30, 7, 5, 262, 61, 147, 44, 11, 6, 17, 0, 322, 29, 19, 43, 485, 27, 757, 6, 2, 3, 2, 1, 2, 14, 2, 196, 60, 67, 8, 0, 1205, 3, 2, 26, 2, 1, 2, 0, 3, 0, 2, 9, 2, 3, 2, 0, 2, 0, 7, 0, 5, 0, 2, 0, 2, 0, 2, 2, 2, 1, 2, 0, 3, 0, 2, 0, 2, 0, 2, 0, 2, 0, 2, 1, 2, 0, 3, 3, 2, 6, 2, 3, 2, 3, 2, 0, 2, 9, 2, 16, 6, 2, 2, 4, 2, 16, 4421, 42719, 33, 4153, 7, 221, 3, 5761, 15, 7472, 3104, 541, 1507, 4938, 6, 4191];
const astralIdentifierCodes = [509, 0, 227, 0, 150, 4, 294, 9, 1368, 2, 2, 1, 6, 3, 41, 2, 5, 0, 166, 1, 574, 3, 9, 9, 370, 1, 81, 2, 71, 10, 50, 3, 123, 2, 54, 14, 32, 10, 3, 1, 11, 3, 46, 10, 8, 0, 46, 9, 7, 2, 37, 13, 2, 9, 6, 1, 45, 0, 13, 2, 49, 13, 9, 3, 2, 11, 83, 11, 7, 0, 3, 0, 158, 11, 6, 9, 7, 3, 56, 1, 2, 6, 3, 1, 3, 2, 10, 0, 11, 1, 3, 6, 4, 4, 193, 17, 10, 9, 5, 0, 82, 19, 13, 9, 214, 6, 3, 8, 28, 1, 83, 16, 16, 9, 82, 12, 9, 9, 84, 14, 5, 9, 243, 14, 166, 9, 71, 5, 2, 1, 3, 3, 2, 0, 2, 1, 13, 9, 120, 6, 3, 6, 4, 0, 29, 9, 41, 6, 2, 3, 9, 0, 10, 10, 47, 15, 406, 7, 2, 7, 17, 9, 57, 21, 2, 13, 123, 5, 4, 0, 2, 1, 2, 6, 2, 0, 9, 9, 49, 4, 2, 1, 2, 4, 9, 9, 330, 3, 10, 1, 2, 0, 49, 6, 4, 4, 14, 9, 5351, 0, 7, 14, 13835, 9, 87, 9, 39, 4, 60, 6, 26, 9, 1014, 0, 2, 54, 8, 3, 82, 0, 12, 1, 19628, 1, 4706, 45, 3, 22, 543, 4, 4, 5, 9, 7, 3, 6, 31, 3, 149, 2, 1418, 49, 513, 54, 5, 49, 9, 0, 15, 0, 23, 4, 2, 14, 1361, 6, 2, 16, 3, 6, 2, 1, 2, 4, 101, 0, 161, 6, 10, 9, 357, 0, 62, 13, 499, 13, 983, 6, 110, 6, 6, 9, 4759, 9, 787719, 239];
function isInAstralSet(code, set) {
  let pos = 0x10000;
  for (let i = 0, length = set.length; i < length; i += 2) {
    pos += set[i];
    if (pos > code) return false;
    pos += set[i + 1];
    if (pos >= code) return true;
  }
  return false;
}
function isIdentifierStart(code) {
  if (code < 65) return code === 36;
  if (code <= 90) return true;
  if (code < 97) return code === 95;
  if (code <= 122) return true;
  if (code <= 0xffff) {
    return code >= 0xaa && nonASCIIidentifierStart.test(String.fromCharCode(code));
  }
  return isInAstralSet(code, astralIdentifierStartCodes);
}
function isIdentifierChar(code) {
  if (code < 48) return code === 36;
  if (code < 58) return true;
  if (code < 65) return false;
  if (code <= 90) return true;
  if (code < 97) return code === 95;
  if (code <= 122) return true;
  if (code <= 0xffff) {
    return code >= 0xaa && nonASCIIidentifier.test(String.fromCharCode(code));
  }
  return isInAstralSet(code, astralIdentifierStartCodes) || isInAstralSet(code, astralIdentifierCodes);
}
const reservedWords = {
  keyword: ["break", "case", "catch", "continue", "debugger", "default", "do", "else", "finally", "for", "function", "if", "return", "switch", "throw", "try", "var", "const", "while", "with", "new", "this", "super", "class", "extends", "export", "import", "null", "true", "false", "in", "instanceof", "typeof", "void", "delete"],
  strict: ["implements", "interface", "let", "package", "private", "protected", "public", "static", "yield"],
  strictBind: ["eval", "arguments"]
};
const keywords = new Set(reservedWords.keyword);
const reservedWordsStrictSet = new Set(reservedWords.strict);
const reservedWordsStrictBindSet = new Set(reservedWords.strictBind);
function isReservedWord(word, inModule) {
  return inModule && word === "await" || word === "enum";
}
function isStrictReservedWord(word, inModule) {
  return isReservedWord(word, inModule) || reservedWordsStrictSet.has(word);
}
function isStrictBindOnlyReservedWord(word) {
  return reservedWordsStrictBindSet.has(word);
}
function isStrictBindReservedWord(word, inModule) {
  return isStrictReservedWord(word, inModule) || isStrictBindOnlyReservedWord(word);
}
function isKeyword(word) {
  return keywords.has(word);
}
function isIteratorStart(current, next, next2) {
  return current === 64 && next === 64 && isIdentifierStart(next2);
}
const reservedWordLikeSet = new Set(["break", "case", "catch", "continue", "debugger", "default", "do", "else", "finally", "for", "function", "if", "return", "switch", "throw", "try", "var", "const", "while", "with", "new", "this", "super", "class", "extends", "export", "import", "null", "true", "false", "in", "instanceof", "typeof", "void", "delete", "implements", "interface", "let", "package", "private", "protected", "public", "static", "yield", "eval", "arguments", "enum", "await"]);
function canBeReservedWord(word) {
  return reservedWordLikeSet.has(word);
}
const SCOPE_OTHER = 0b000000000,
  SCOPE_PROGRAM = 0b000000001,
  SCOPE_FUNCTION = 0b000000010,
  SCOPE_ARROW = 0b000000100,
  SCOPE_SIMPLE_CATCH = 0b000001000,
  SCOPE_SUPER = 0b000010000,
  SCOPE_DIRECT_SUPER = 0b000100000,
  SCOPE_CLASS = 0b001000000,
  SCOPE_STATIC_BLOCK = 0b010000000,
  SCOPE_TS_MODULE = 0b100000000,
  SCOPE_VAR = SCOPE_PROGRAM | SCOPE_FUNCTION | SCOPE_STATIC_BLOCK | SCOPE_TS_MODULE;
const BIND_KIND_VALUE = 0b0000000000001,
  BIND_KIND_TYPE = 0b0000000000010,
  BIND_SCOPE_VAR = 0b0000000000100,
  BIND_SCOPE_LEXICAL = 0b0000000001000,
  BIND_SCOPE_FUNCTION = 0b0000000010000,
  BIND_FLAGS_NONE = 0b00000001000000,
  BIND_FLAGS_CLASS = 0b00000010000000,
  BIND_FLAGS_TS_ENUM = 0b00000100000000,
  BIND_FLAGS_TS_CONST_ENUM = 0b00001000000000,
  BIND_FLAGS_TS_EXPORT_ONLY = 0b00010000000000,
  BIND_FLAGS_FLOW_DECLARE_FN = 0b00100000000000,
  BIND_FLAGS_TS_IMPORT = 0b01000000000000,
  BIND_FLAGS_NO_LET_IN_LEXICAL = 0b10000000000000;
const BIND_CLASS = BIND_KIND_VALUE | BIND_KIND_TYPE | BIND_SCOPE_LEXICAL | BIND_FLAGS_CLASS | BIND_FLAGS_NO_LET_IN_LEXICAL,
  BIND_LEXICAL = BIND_KIND_VALUE | 0 | BIND_SCOPE_LEXICAL | BIND_FLAGS_NO_LET_IN_LEXICAL,
  BIND_CATCH_PARAM = BIND_KIND_VALUE | 0 | BIND_SCOPE_LEXICAL | 0,
  BIND_VAR = BIND_KIND_VALUE | 0 | BIND_SCOPE_VAR | 0,
  BIND_FUNCTION = BIND_KIND_VALUE | 0 | BIND_SCOPE_FUNCTION | 0,
  BIND_TS_INTERFACE = 0 | BIND_KIND_TYPE | 0 | BIND_FLAGS_CLASS,
  BIND_TS_TYPE = 0 | BIND_KIND_TYPE | 0 | 0,
  BIND_TS_ENUM = BIND_KIND_VALUE | BIND_KIND_TYPE | BIND_SCOPE_LEXICAL | BIND_FLAGS_TS_ENUM | BIND_FLAGS_NO_LET_IN_LEXICAL,
  BIND_TS_AMBIENT = 0 | 0 | 0 | BIND_FLAGS_TS_EXPORT_ONLY,
  BIND_NONE = 0 | 0 | 0 | BIND_FLAGS_NONE,
  BIND_OUTSIDE = BIND_KIND_VALUE | 0 | 0 | BIND_FLAGS_NONE,
  BIND_TS_CONST_ENUM = BIND_TS_ENUM | BIND_FLAGS_TS_CONST_ENUM,
  BIND_TS_NAMESPACE = 0 | 0 | 0 | BIND_FLAGS_TS_EXPORT_ONLY,
  BIND_TS_TYPE_IMPORT = 0 | BIND_KIND_TYPE | 0 | BIND_FLAGS_TS_IMPORT,
  BIND_FLOW_DECLARE_FN = BIND_FLAGS_FLOW_DECLARE_FN;
const CLASS_ELEMENT_FLAG_STATIC = 0b100,
  CLASS_ELEMENT_KIND_GETTER = 0b010,
  CLASS_ELEMENT_KIND_SETTER = 0b001,
  CLASS_ELEMENT_KIND_ACCESSOR = CLASS_ELEMENT_KIND_GETTER | CLASS_ELEMENT_KIND_SETTER;
const CLASS_ELEMENT_STATIC_GETTER = CLASS_ELEMENT_KIND_GETTER | CLASS_ELEMENT_FLAG_STATIC,
  CLASS_ELEMENT_STATIC_SETTER = CLASS_ELEMENT_KIND_SETTER | CLASS_ELEMENT_FLAG_STATIC,
  CLASS_ELEMENT_INSTANCE_GETTER = CLASS_ELEMENT_KIND_GETTER,
  CLASS_ELEMENT_INSTANCE_SETTER = CLASS_ELEMENT_KIND_SETTER,
  CLASS_ELEMENT_OTHER = 0;
class Scope {
  constructor(flags) {
    this.var = new Set();
    this.lexical = new Set();
    this.functions = new Set();
    this.flags = flags;
  }
}
class ScopeHandler {
  constructor(parser, inModule) {
    this.parser = void 0;
    this.scopeStack = [];
    this.inModule = void 0;
    this.undefinedExports = new Map();
    this.parser = parser;
    this.inModule = inModule;
  }
  get inTopLevel() {
    return (this.currentScope().flags & SCOPE_PROGRAM) > 0;
  }
  get inFunction() {
    return (this.currentVarScopeFlags() & SCOPE_FUNCTION) > 0;
  }
  get allowSuper() {
    return (this.currentThisScopeFlags() & SCOPE_SUPER) > 0;
  }
  get allowDirectSuper() {
    return (this.currentThisScopeFlags() & SCOPE_DIRECT_SUPER) > 0;
  }
  get inClass() {
    return (this.currentThisScopeFlags() & SCOPE_CLASS) > 0;
  }
  get inClassAndNotInNonArrowFunction() {
    const flags = this.currentThisScopeFlags();
    return (flags & SCOPE_CLASS) > 0 && (flags & SCOPE_FUNCTION) === 0;
  }
  get inStaticBlock() {
    for (let i = this.scopeStack.length - 1;; i--) {
      const {
        flags
      } = this.scopeStack[i];
      if (flags & SCOPE_STATIC_BLOCK) {
        return true;
      }
      if (flags & (SCOPE_VAR | SCOPE_CLASS)) {
        return false;
      }
    }
  }
  get inNonArrowFunction() {
    return (this.currentThisScopeFlags() & SCOPE_FUNCTION) > 0;
  }
  get treatFunctionsAsVar() {
    return this.treatFunctionsAsVarInScope(this.currentScope());
  }
  createScope(flags) {
    return new Scope(flags);
  }
  enter(flags) {
    this.scopeStack.push(this.createScope(flags));
  }
  exit() {
    const scope = this.scopeStack.pop();
    return scope.flags;
  }
  treatFunctionsAsVarInScope(scope) {
    return !!(scope.flags & (SCOPE_FUNCTION | SCOPE_STATIC_BLOCK) || !this.parser.inModule && scope.flags & SCOPE_PROGRAM);
  }
  declareName(name, bindingType, loc) {
    let scope = this.currentScope();
    if (bindingType & BIND_SCOPE_LEXICAL || bindingType & BIND_SCOPE_FUNCTION) {
      this.checkRedeclarationInScope(scope, name, bindingType, loc);
      if (bindingType & BIND_SCOPE_FUNCTION) {
        scope.functions.add(name);
      } else {
        scope.lexical.add(name);
      }
      if (bindingType & BIND_SCOPE_LEXICAL) {
        this.maybeExportDefined(scope, name);
      }
    } else if (bindingType & BIND_SCOPE_VAR) {
      for (let i = this.scopeStack.length - 1; i >= 0; --i) {
        scope = this.scopeStack[i];
        this.checkRedeclarationInScope(scope, name, bindingType, loc);
        scope.var.add(name);
        this.maybeExportDefined(scope, name);
        if (scope.flags & SCOPE_VAR) break;
      }
    }
    if (this.parser.inModule && scope.flags & SCOPE_PROGRAM) {
      this.undefinedExports.delete(name);
    }
  }
  maybeExportDefined(scope, name) {
    if (this.parser.inModule && scope.flags & SCOPE_PROGRAM) {
      this.undefinedExports.delete(name);
    }
  }
  checkRedeclarationInScope(scope, name, bindingType, loc) {
    if (this.isRedeclaredInScope(scope, name, bindingType)) {
      this.parser.raise(Errors.VarRedeclaration, {
        at: loc,
        identifierName: name
      });
    }
  }
  isRedeclaredInScope(scope, name, bindingType) {
    if (!(bindingType & BIND_KIND_VALUE)) return false;
    if (bindingType & BIND_SCOPE_LEXICAL) {
      return scope.lexical.has(name) || scope.functions.has(name) || scope.var.has(name);
    }
    if (bindingType & BIND_SCOPE_FUNCTION) {
      return scope.lexical.has(name) || !this.treatFunctionsAsVarInScope(scope) && scope.var.has(name);
    }
    return scope.lexical.has(name) && !(scope.flags & SCOPE_SIMPLE_CATCH && scope.lexical.values().next().value === name) || !this.treatFunctionsAsVarInScope(scope) && scope.functions.has(name);
  }
  checkLocalExport(id) {
    const {
      name
    } = id;
    const topLevelScope = this.scopeStack[0];
    if (!topLevelScope.lexical.has(name) && !topLevelScope.var.has(name) && !topLevelScope.functions.has(name)) {
      this.undefinedExports.set(name, id.loc.start);
    }
  }
  currentScope() {
    return this.scopeStack[this.scopeStack.length - 1];
  }
  currentVarScopeFlags() {
    for (let i = this.scopeStack.length - 1;; i--) {
      const {
        flags
      } = this.scopeStack[i];
      if (flags & SCOPE_VAR) {
        return flags;
      }
    }
  }
  currentThisScopeFlags() {
    for (let i = this.scopeStack.length - 1;; i--) {
      const {
        flags
      } = this.scopeStack[i];
      if (flags & (SCOPE_VAR | SCOPE_CLASS) && !(flags & SCOPE_ARROW)) {
        return flags;
      }
    }
  }
}
class FlowScope extends Scope {
  constructor(...args) {
    super(...args);
    this.declareFunctions = new Set();
  }
}
class FlowScopeHandler extends ScopeHandler {
  createScope(flags) {
    return new FlowScope(flags);
  }
  declareName(name, bindingType, loc) {
    const scope = this.currentScope();
    if (bindingType & BIND_FLAGS_FLOW_DECLARE_FN) {
      this.checkRedeclarationInScope(scope, name, bindingType, loc);
      this.maybeExportDefined(scope, name);
      scope.declareFunctions.add(name);
      return;
    }
    super.declareName(name, bindingType, loc);
  }
  isRedeclaredInScope(scope, name, bindingType) {
    if (super.isRedeclaredInScope(scope, name, bindingType)) return true;
    if (bindingType & BIND_FLAGS_FLOW_DECLARE_FN) {
      return !scope.declareFunctions.has(name) && (scope.lexical.has(name) || scope.functions.has(name));
    }
    return false;
  }
  checkLocalExport(id) {
    if (!this.scopeStack[0].declareFunctions.has(id.name)) {
      super.checkLocalExport(id);
    }
  }
}
class BaseParser {
  constructor() {
    this.sawUnambiguousESM = false;
    this.ambiguousScriptDifferentAst = false;
  }
  hasPlugin(pluginConfig) {
    if (typeof pluginConfig === "string") {
      return this.plugins.has(pluginConfig);
    } else {
      const [pluginName, pluginOptions] = pluginConfig;
      if (!this.hasPlugin(pluginName)) {
        return false;
      }
      const actualOptions = this.plugins.get(pluginName);
      for (const key of Object.keys(pluginOptions)) {
        if ((actualOptions == null ? void 0 : actualOptions[key]) !== pluginOptions[key]) {
          return false;
        }
      }
      return true;
    }
  }
  getPluginOption(plugin, name) {
    var _this$plugins$get;
    return (_this$plugins$get = this.plugins.get(plugin)) == null ? void 0 : _this$plugins$get[name];
  }
}
function setTrailingComments(node, comments) {
  if (node.trailingComments === undefined) {
    node.trailingComments = comments;
  } else {
    node.trailingComments.unshift(...comments);
  }
}
function setLeadingComments(node, comments) {
  if (node.leadingComments === undefined) {
    node.leadingComments = comments;
  } else {
    node.leadingComments.unshift(...comments);
  }
}
function setInnerComments(node, comments) {
  if (node.innerComments === undefined) {
    node.innerComments = comments;
  } else {
    node.innerComments.unshift(...comments);
  }
}
function adjustInnerComments(node, elements, commentWS) {
  let lastElement = null;
  let i = elements.length;
  while (lastElement === null && i > 0) {
    lastElement = elements[--i];
  }
  if (lastElement === null || lastElement.start > commentWS.start) {
    setInnerComments(node, commentWS.comments);
  } else {
    setTrailingComments(lastElement, commentWS.comments);
  }
}
class CommentsParser extends BaseParser {
  addComment(comment) {
    if (this.filename) comment.loc.filename = this.filename;
    this.state.comments.push(comment);
  }
  processComment(node) {
    const {
      commentStack
    } = this.state;
    const commentStackLength = commentStack.length;
    if (commentStackLength === 0) return;
    let i = commentStackLength - 1;
    const lastCommentWS = commentStack[i];
    if (lastCommentWS.start === node.end) {
      lastCommentWS.leadingNode = node;
      i--;
    }
    const {
      start: nodeStart
    } = node;
    for (; i >= 0; i--) {
      const commentWS = commentStack[i];
      const commentEnd = commentWS.end;
      if (commentEnd > nodeStart) {
        commentWS.containingNode = node;
        this.finalizeComment(commentWS);
        commentStack.splice(i, 1);
      } else {
        if (commentEnd === nodeStart) {
          commentWS.trailingNode = node;
        }
        break;
      }
    }
  }
  finalizeComment(commentWS) {
    const {
      comments
    } = commentWS;
    if (commentWS.leadingNode !== null || commentWS.trailingNode !== null) {
      if (commentWS.leadingNode !== null) {
        setTrailingComments(commentWS.leadingNode, comments);
      }
      if (commentWS.trailingNode !== null) {
        setLeadingComments(commentWS.trailingNode, comments);
      }
    } else {
      const {
        containingNode: node,
        start: commentStart
      } = commentWS;
      if (this.input.charCodeAt(commentStart - 1) === 44) {
        switch (node.type) {
          case "ObjectExpression":
          case "ObjectPattern":
          case "RecordExpression":
            adjustInnerComments(node, node.properties, commentWS);
            break;
          case "CallExpression":
          case "OptionalCallExpression":
            adjustInnerComments(node, node.arguments, commentWS);
            break;
          case "FunctionDeclaration":
          case "FunctionExpression":
          case "ArrowFunctionExpression":
          case "ObjectMethod":
          case "ClassMethod":
          case "ClassPrivateMethod":
            adjustInnerComments(node, node.params, commentWS);
            break;
          case "ArrayExpression":
          case "ArrayPattern":
          case "TupleExpression":
            adjustInnerComments(node, node.elements, commentWS);
            break;
          case "ExportNamedDeclaration":
          case "ImportDeclaration":
            adjustInnerComments(node, node.specifiers, commentWS);
            break;
          default:
            {
              setInnerComments(node, comments);
            }
        }
      } else {
        setInnerComments(node, comments);
      }
    }
  }
  finalizeRemainingComments() {
    const {
      commentStack
    } = this.state;
    for (let i = commentStack.length - 1; i >= 0; i--) {
      this.finalizeComment(commentStack[i]);
    }
    this.state.commentStack = [];
  }
  resetPreviousNodeTrailingComments(node) {
    const {
      commentStack
    } = this.state;
    const {
      length
    } = commentStack;
    if (length === 0) return;
    const commentWS = commentStack[length - 1];
    if (commentWS.leadingNode === node) {
      commentWS.leadingNode = null;
    }
  }
  takeSurroundingComments(node, start, end) {
    const {
      commentStack
    } = this.state;
    const commentStackLength = commentStack.length;
    if (commentStackLength === 0) return;
    let i = commentStackLength - 1;
    for (; i >= 0; i--) {
      const commentWS = commentStack[i];
      const commentEnd = commentWS.end;
      const commentStart = commentWS.start;
      if (commentStart === end) {
        commentWS.leadingNode = node;
      } else if (commentEnd === start) {
        commentWS.trailingNode = node;
      } else if (commentEnd < start) {
        break;
      }
    }
  }
}
const lineBreak = /\r\n?|[\n\u2028\u2029]/;
const lineBreakG = new RegExp(lineBreak.source, "g");
function isNewLine(code) {
  switch (code) {
    case 10:
    case 13:
    case 8232:
    case 8233:
      return true;
    default:
      return false;
  }
}
const skipWhiteSpace = /(?:\s|\/\/.*|\/\*[^]*?\*\/)*/g;
const skipWhiteSpaceInLine = /(?:[^\S\n\r\u2028\u2029]|\/\/.*|\/\*.*?\*\/)*/y;
const skipWhiteSpaceToLineBreak = new RegExp("(?=(" + skipWhiteSpaceInLine.source + "))\\1" + /(?=[\n\r\u2028\u2029]|\/\*(?!.*?\*\/)|$)/.source, "y");
function isWhitespace(code) {
  switch (code) {
    case 0x0009:
    case 0x000b:
    case 0x000c:
    case 32:
    case 160:
    case 5760:
    case 0x2000:
    case 0x2001:
    case 0x2002:
    case 0x2003:
    case 0x2004:
    case 0x2005:
    case 0x2006:
    case 0x2007:
    case 0x2008:
    case 0x2009:
    case 0x200a:
    case 0x202f:
    case 0x205f:
    case 0x3000:
    case 0xfeff:
      return true;
    default:
      return false;
  }
}
class State {
  constructor() {
    this.strict = void 0;
    this.curLine = void 0;
    this.lineStart = void 0;
    this.startLoc = void 0;
    this.endLoc = void 0;
    this.errors = [];
    this.potentialArrowAt = -1;
    this.noArrowAt = [];
    this.noArrowParamsConversionAt = [];
    this.maybeInArrowParameters = false;
    this.inType = false;
    this.noAnonFunctionType = false;
    this.hasFlowComment = false;
    this.isAmbientContext = false;
    this.inAbstractClass = false;
    this.inDisallowConditionalTypesContext = false;
    this.topicContext = {
      maxNumOfResolvableTopics: 0,
      maxTopicIndex: null
    };
    this.soloAwait = false;
    this.inFSharpPipelineDirectBody = false;
    this.labels = [];
    this.comments = [];
    this.commentStack = [];
    this.pos = 0;
    this.type = 137;
    this.value = null;
    this.start = 0;
    this.end = 0;
    this.lastTokEndLoc = null;
    this.lastTokStartLoc = null;
    this.lastTokStart = 0;
    this.context = [types$1.brace];
    this.canStartJSXElement = true;
    this.containsEsc = false;
    this.firstInvalidTemplateEscapePos = null;
    this.strictErrors = new Map();
    this.tokensLength = 0;
  }
  init({
    strictMode,
    sourceType,
    startLine,
    startColumn
  }) {
    this.strict = strictMode === false ? false : strictMode === true ? true : sourceType === "module";
    this.curLine = startLine;
    this.lineStart = -startColumn;
    this.startLoc = this.endLoc = new Position(startLine, startColumn, 0);
  }
  curPosition() {
    return new Position(this.curLine, this.pos - this.lineStart, this.pos);
  }
  clone(skipArrays) {
    const state = new State();
    const keys = Object.keys(this);
    for (let i = 0, length = keys.length; i < length; i++) {
      const key = keys[i];
      let val = this[key];
      if (!skipArrays && Array.isArray(val)) {
        val = val.slice();
      }
      state[key] = val;
    }
    return state;
  }
}
var _isDigit = function isDigit(code) {
  return code >= 48 && code <= 57;
};
const forbiddenNumericSeparatorSiblings = {
  decBinOct: new Set([46, 66, 69, 79, 95, 98, 101, 111]),
  hex: new Set([46, 88, 95, 120])
};
const isAllowedNumericSeparatorSibling = {
  bin: ch => ch === 48 || ch === 49,
  oct: ch => ch >= 48 && ch <= 55,
  dec: ch => ch >= 48 && ch <= 57,
  hex: ch => ch >= 48 && ch <= 57 || ch >= 65 && ch <= 70 || ch >= 97 && ch <= 102
};
function readStringContents(type, input, pos, lineStart, curLine, errors) {
  const initialPos = pos;
  const initialLineStart = lineStart;
  const initialCurLine = curLine;
  let out = "";
  let firstInvalidLoc = null;
  let chunkStart = pos;
  const {
    length
  } = input;
  for (;;) {
    if (pos >= length) {
      errors.unterminated(initialPos, initialLineStart, initialCurLine);
      out += input.slice(chunkStart, pos);
      break;
    }
    const ch = input.charCodeAt(pos);
    if (isStringEnd(type, ch, input, pos)) {
      out += input.slice(chunkStart, pos);
      break;
    }
    if (ch === 92) {
      out += input.slice(chunkStart, pos);
      const res = readEscapedChar(input, pos, lineStart, curLine, type === "template", errors);
      if (res.ch === null && !firstInvalidLoc) {
        firstInvalidLoc = {
          pos,
          lineStart,
          curLine
        };
      } else {
        out += res.ch;
      }
      ({
        pos,
        lineStart,
        curLine
      } = res);
      chunkStart = pos;
    } else if (ch === 8232 || ch === 8233) {
      ++pos;
      ++curLine;
      lineStart = pos;
    } else if (ch === 10 || ch === 13) {
      if (type === "template") {
        out += input.slice(chunkStart, pos) + "\n";
        ++pos;
        if (ch === 13 && input.charCodeAt(pos) === 10) {
          ++pos;
        }
        ++curLine;
        chunkStart = lineStart = pos;
      } else {
        errors.unterminated(initialPos, initialLineStart, initialCurLine);
      }
    } else {
      ++pos;
    }
  }
  return {
    pos,
    str: out,
    firstInvalidLoc,
    lineStart,
    curLine,
    containsInvalid: !!firstInvalidLoc
  };
}
function isStringEnd(type, ch, input, pos) {
  if (type === "template") {
    return ch === 96 || ch === 36 && input.charCodeAt(pos + 1) === 123;
  }
  return ch === (type === "double" ? 34 : 39);
}
function readEscapedChar(input, pos, lineStart, curLine, inTemplate, errors) {
  const throwOnInvalid = !inTemplate;
  pos++;
  const res = ch => ({
    pos,
    ch,
    lineStart,
    curLine
  });
  const ch = input.charCodeAt(pos++);
  switch (ch) {
    case 110:
      return res("\n");
    case 114:
      return res("\r");
    case 120:
      {
        let code;
        ({
          code,
          pos
        } = readHexChar(input, pos, lineStart, curLine, 2, false, throwOnInvalid, errors));
        return res(code === null ? null : String.fromCharCode(code));
      }
    case 117:
      {
        let code;
        ({
          code,
          pos
        } = readCodePoint(input, pos, lineStart, curLine, throwOnInvalid, errors));
        return res(code === null ? null : String.fromCodePoint(code));
      }
    case 116:
      return res("\t");
    case 98:
      return res("\b");
    case 118:
      return res("\u000b");
    case 102:
      return res("\f");
    case 13:
      if (input.charCodeAt(pos) === 10) {
        ++pos;
      }
    case 10:
      lineStart = pos;
      ++curLine;
    case 8232:
    case 8233:
      return res("");
    case 56:
    case 57:
      if (inTemplate) {
        return res(null);
      } else {
        errors.strictNumericEscape(pos - 1, lineStart, curLine);
      }
    default:
      if (ch >= 48 && ch <= 55) {
        const startPos = pos - 1;
        const match = input.slice(startPos, pos + 2).match(/^[0-7]+/);
        let octalStr = match[0];
        let octal = parseInt(octalStr, 8);
        if (octal > 255) {
          octalStr = octalStr.slice(0, -1);
          octal = parseInt(octalStr, 8);
        }
        pos += octalStr.length - 1;
        const next = input.charCodeAt(pos);
        if (octalStr !== "0" || next === 56 || next === 57) {
          if (inTemplate) {
            return res(null);
          } else {
            errors.strictNumericEscape(startPos, lineStart, curLine);
          }
        }
        return res(String.fromCharCode(octal));
      }
      return res(String.fromCharCode(ch));
  }
}
function readHexChar(input, pos, lineStart, curLine, len, forceLen, throwOnInvalid, errors) {
  const initialPos = pos;
  let n;
  ({
    n,
    pos
  } = readInt(input, pos, lineStart, curLine, 16, len, forceLen, false, errors, !throwOnInvalid));
  if (n === null) {
    if (throwOnInvalid) {
      errors.invalidEscapeSequence(initialPos, lineStart, curLine);
    } else {
      pos = initialPos - 1;
    }
  }
  return {
    code: n,
    pos
  };
}
function readInt(input, pos, lineStart, curLine, radix, len, forceLen, allowNumSeparator, errors, bailOnError) {
  const start = pos;
  const forbiddenSiblings = radix === 16 ? forbiddenNumericSeparatorSiblings.hex : forbiddenNumericSeparatorSiblings.decBinOct;
  const isAllowedSibling = radix === 16 ? isAllowedNumericSeparatorSibling.hex : radix === 10 ? isAllowedNumericSeparatorSibling.dec : radix === 8 ? isAllowedNumericSeparatorSibling.oct : isAllowedNumericSeparatorSibling.bin;
  let invalid = false;
  let total = 0;
  for (let i = 0, e = len == null ? Infinity : len; i < e; ++i) {
    const code = input.charCodeAt(pos);
    let val;
    if (code === 95 && allowNumSeparator !== "bail") {
      const prev = input.charCodeAt(pos - 1);
      const next = input.charCodeAt(pos + 1);
      if (!allowNumSeparator) {
        if (bailOnError) return {
          n: null,
          pos
        };
        errors.numericSeparatorInEscapeSequence(pos, lineStart, curLine);
      } else if (Number.isNaN(next) || !isAllowedSibling(next) || forbiddenSiblings.has(prev) || forbiddenSiblings.has(next)) {
        if (bailOnError) return {
          n: null,
          pos
        };
        errors.unexpectedNumericSeparator(pos, lineStart, curLine);
      }
      ++pos;
      continue;
    }
    if (code >= 97) {
      val = code - 97 + 10;
    } else if (code >= 65) {
      val = code - 65 + 10;
    } else if (_isDigit(code)) {
      val = code - 48;
    } else {
      val = Infinity;
    }
    if (val >= radix) {
      if (val <= 9 && bailOnError) {
        return {
          n: null,
          pos
        };
      } else if (val <= 9 && errors.invalidDigit(pos, lineStart, curLine, radix)) {
        val = 0;
      } else if (forceLen) {
        val = 0;
        invalid = true;
      } else {
        break;
      }
    }
    ++pos;
    total = total * radix + val;
  }
  if (pos === start || len != null && pos - start !== len || invalid) {
    return {
      n: null,
      pos
    };
  }
  return {
    n: total,
    pos
  };
}
function readCodePoint(input, pos, lineStart, curLine, throwOnInvalid, errors) {
  const ch = input.charCodeAt(pos);
  let code;
  if (ch === 123) {
    ++pos;
    ({
      code,
      pos
    } = readHexChar(input, pos, lineStart, curLine, input.indexOf("}", pos) - pos, true, throwOnInvalid, errors));
    ++pos;
    if (code !== null && code > 0x10ffff) {
      if (throwOnInvalid) {
        errors.invalidCodePoint(pos, lineStart, curLine);
      } else {
        return {
          code: null,
          pos
        };
      }
    }
  } else {
    ({
      code,
      pos
    } = readHexChar(input, pos, lineStart, curLine, 4, false, throwOnInvalid, errors));
  }
  return {
    code,
    pos
  };
}
const _excluded = ["at"],
  _excluded2 = ["at"];
function buildPosition(pos, lineStart, curLine) {
  return new Position(curLine, pos - lineStart, pos);
}
const VALID_REGEX_FLAGS = new Set([103, 109, 115, 105, 121, 117, 100, 118]);
class Token {
  constructor(state) {
    this.type = state.type;
    this.value = state.value;
    this.start = state.start;
    this.end = state.end;
    this.loc = new SourceLocation(state.startLoc, state.endLoc);
  }
}
class Tokenizer extends CommentsParser {
  constructor(options, input) {
    super();
    this.isLookahead = void 0;
    this.tokens = [];
    this.errorHandlers_readInt = {
      invalidDigit: (pos, lineStart, curLine, radix) => {
        if (!this.options.errorRecovery) return false;
        this.raise(Errors.InvalidDigit, {
          at: buildPosition(pos, lineStart, curLine),
          radix
        });
        return true;
      },
      numericSeparatorInEscapeSequence: this.errorBuilder(Errors.NumericSeparatorInEscapeSequence),
      unexpectedNumericSeparator: this.errorBuilder(Errors.UnexpectedNumericSeparator)
    };
    this.errorHandlers_readCodePoint = Object.assign({}, this.errorHandlers_readInt, {
      invalidEscapeSequence: this.errorBuilder(Errors.InvalidEscapeSequence),
      invalidCodePoint: this.errorBuilder(Errors.InvalidCodePoint)
    });
    this.errorHandlers_readStringContents_string = Object.assign({}, this.errorHandlers_readCodePoint, {
      strictNumericEscape: (pos, lineStart, curLine) => {
        this.recordStrictModeErrors(Errors.StrictNumericEscape, {
          at: buildPosition(pos, lineStart, curLine)
        });
      },
      unterminated: (pos, lineStart, curLine) => {
        throw this.raise(Errors.UnterminatedString, {
          at: buildPosition(pos - 1, lineStart, curLine)
        });
      }
    });
    this.errorHandlers_readStringContents_template = Object.assign({}, this.errorHandlers_readCodePoint, {
      strictNumericEscape: this.errorBuilder(Errors.StrictNumericEscape),
      unterminated: (pos, lineStart, curLine) => {
        throw this.raise(Errors.UnterminatedTemplate, {
          at: buildPosition(pos, lineStart, curLine)
        });
      }
    });
    this.state = new State();
    this.state.init(options);
    this.input = input;
    this.length = input.length;
    this.isLookahead = false;
  }
  pushToken(token) {
    this.tokens.length = this.state.tokensLength;
    this.tokens.push(token);
    ++this.state.tokensLength;
  }
  next() {
    this.checkKeywordEscapes();
    if (this.options.tokens) {
      this.pushToken(new Token(this.state));
    }
    this.state.lastTokStart = this.state.start;
    this.state.lastTokEndLoc = this.state.endLoc;
    this.state.lastTokStartLoc = this.state.startLoc;
    this.nextToken();
  }
  eat(type) {
    if (this.match(type)) {
      this.next();
      return true;
    } else {
      return false;
    }
  }
  match(type) {
    return this.state.type === type;
  }
  createLookaheadState(state) {
    return {
      pos: state.pos,
      value: null,
      type: state.type,
      start: state.start,
      end: state.end,
      context: [this.curContext()],
      inType: state.inType,
      startLoc: state.startLoc,
      lastTokEndLoc: state.lastTokEndLoc,
      curLine: state.curLine,
      lineStart: state.lineStart,
      curPosition: state.curPosition
    };
  }
  lookahead() {
    const old = this.state;
    this.state = this.createLookaheadState(old);
    this.isLookahead = true;
    this.nextToken();
    this.isLookahead = false;
    const curr = this.state;
    this.state = old;
    return curr;
  }
  nextTokenStart() {
    return this.nextTokenStartSince(this.state.pos);
  }
  nextTokenStartSince(pos) {
    skipWhiteSpace.lastIndex = pos;
    return skipWhiteSpace.test(this.input) ? skipWhiteSpace.lastIndex : pos;
  }
  lookaheadCharCode() {
    return this.input.charCodeAt(this.nextTokenStart());
  }
  codePointAtPos(pos) {
    let cp = this.input.charCodeAt(pos);
    if ((cp & 0xfc00) === 0xd800 && ++pos < this.input.length) {
      const trail = this.input.charCodeAt(pos);
      if ((trail & 0xfc00) === 0xdc00) {
        cp = 0x10000 + ((cp & 0x3ff) << 10) + (trail & 0x3ff);
      }
    }
    return cp;
  }
  setStrict(strict) {
    this.state.strict = strict;
    if (strict) {
      this.state.strictErrors.forEach(([toParseError, at]) => this.raise(toParseError, {
        at
      }));
      this.state.strictErrors.clear();
    }
  }
  curContext() {
    return this.state.context[this.state.context.length - 1];
  }
  nextToken() {
    this.skipSpace();
    this.state.start = this.state.pos;
    if (!this.isLookahead) this.state.startLoc = this.state.curPosition();
    if (this.state.pos >= this.length) {
      this.finishToken(137);
      return;
    }
    this.getTokenFromCode(this.codePointAtPos(this.state.pos));
  }
  skipBlockComment(commentEnd) {
    let startLoc;
    if (!this.isLookahead) startLoc = this.state.curPosition();
    const start = this.state.pos;
    const end = this.input.indexOf(commentEnd, start + 2);
    if (end === -1) {
      throw this.raise(Errors.UnterminatedComment, {
        at: this.state.curPosition()
      });
    }
    this.state.pos = end + commentEnd.length;
    lineBreakG.lastIndex = start + 2;
    while (lineBreakG.test(this.input) && lineBreakG.lastIndex <= end) {
      ++this.state.curLine;
      this.state.lineStart = lineBreakG.lastIndex;
    }
    if (this.isLookahead) return;
    const comment = {
      type: "CommentBlock",
      value: this.input.slice(start + 2, end),
      start,
      end: end + commentEnd.length,
      loc: new SourceLocation(startLoc, this.state.curPosition())
    };
    if (this.options.tokens) this.pushToken(comment);
    return comment;
  }
  skipLineComment(startSkip) {
    const start = this.state.pos;
    let startLoc;
    if (!this.isLookahead) startLoc = this.state.curPosition();
    let ch = this.input.charCodeAt(this.state.pos += startSkip);
    if (this.state.pos < this.length) {
      while (!isNewLine(ch) && ++this.state.pos < this.length) {
        ch = this.input.charCodeAt(this.state.pos);
      }
    }
    if (this.isLookahead) return;
    const end = this.state.pos;
    const value = this.input.slice(start + startSkip, end);
    const comment = {
      type: "CommentLine",
      value,
      start,
      end,
      loc: new SourceLocation(startLoc, this.state.curPosition())
    };
    if (this.options.tokens) this.pushToken(comment);
    return comment;
  }
  skipSpace() {
    const spaceStart = this.state.pos;
    const comments = [];
    loop: while (this.state.pos < this.length) {
      const ch = this.input.charCodeAt(this.state.pos);
      switch (ch) {
        case 32:
        case 160:
        case 9:
          ++this.state.pos;
          break;
        case 13:
          if (this.input.charCodeAt(this.state.pos + 1) === 10) {
            ++this.state.pos;
          }
        case 10:
        case 8232:
        case 8233:
          ++this.state.pos;
          ++this.state.curLine;
          this.state.lineStart = this.state.pos;
          break;
        case 47:
          switch (this.input.charCodeAt(this.state.pos + 1)) {
            case 42:
              {
                const comment = this.skipBlockComment("*/");
                if (comment !== undefined) {
                  this.addComment(comment);
                  if (this.options.attachComment) comments.push(comment);
                }
                break;
              }
            case 47:
              {
                const comment = this.skipLineComment(2);
                if (comment !== undefined) {
                  this.addComment(comment);
                  if (this.options.attachComment) comments.push(comment);
                }
                break;
              }
            default:
              break loop;
          }
          break;
        default:
          if (isWhitespace(ch)) {
            ++this.state.pos;
          } else if (ch === 45 && !this.inModule && this.options.annexB) {
            const pos = this.state.pos;
            if (this.input.charCodeAt(pos + 1) === 45 && this.input.charCodeAt(pos + 2) === 62 && (spaceStart === 0 || this.state.lineStart > spaceStart)) {
              const comment = this.skipLineComment(3);
              if (comment !== undefined) {
                this.addComment(comment);
                if (this.options.attachComment) comments.push(comment);
              }
            } else {
              break loop;
            }
          } else if (ch === 60 && !this.inModule && this.options.annexB) {
            const pos = this.state.pos;
            if (this.input.charCodeAt(pos + 1) === 33 && this.input.charCodeAt(pos + 2) === 45 && this.input.charCodeAt(pos + 3) === 45) {
              const comment = this.skipLineComment(4);
              if (comment !== undefined) {
                this.addComment(comment);
                if (this.options.attachComment) comments.push(comment);
              }
            } else {
              break loop;
            }
          } else {
            break loop;
          }
      }
    }
    if (comments.length > 0) {
      const end = this.state.pos;
      const commentWhitespace = {
        start: spaceStart,
        end,
        comments,
        leadingNode: null,
        trailingNode: null,
        containingNode: null
      };
      this.state.commentStack.push(commentWhitespace);
    }
  }
  finishToken(type, val) {
    this.state.end = this.state.pos;
    this.state.endLoc = this.state.curPosition();
    const prevType = this.state.type;
    this.state.type = type;
    this.state.value = val;
    if (!this.isLookahead) {
      this.updateContext(prevType);
    }
  }
  replaceToken(type) {
    this.state.type = type;
    this.updateContext();
  }
  readToken_numberSign() {
    if (this.state.pos === 0 && this.readToken_interpreter()) {
      return;
    }
    const nextPos = this.state.pos + 1;
    const next = this.codePointAtPos(nextPos);
    if (next >= 48 && next <= 57) {
      throw this.raise(Errors.UnexpectedDigitAfterHash, {
        at: this.state.curPosition()
      });
    }
    if (next === 123 || next === 91 && this.hasPlugin("recordAndTuple")) {
      this.expectPlugin("recordAndTuple");
      if (this.getPluginOption("recordAndTuple", "syntaxType") === "bar") {
        throw this.raise(next === 123 ? Errors.RecordExpressionHashIncorrectStartSyntaxType : Errors.TupleExpressionHashIncorrectStartSyntaxType, {
          at: this.state.curPosition()
        });
      }
      this.state.pos += 2;
      if (next === 123) {
        this.finishToken(7);
      } else {
        this.finishToken(1);
      }
    } else if (isIdentifierStart(next)) {
      ++this.state.pos;
      this.finishToken(136, this.readWord1(next));
    } else if (next === 92) {
      ++this.state.pos;
      this.finishToken(136, this.readWord1());
    } else {
      this.finishOp(27, 1);
    }
  }
  readToken_dot() {
    const next = this.input.charCodeAt(this.state.pos + 1);
    if (next >= 48 && next <= 57) {
      this.readNumber(true);
      return;
    }
    if (next === 46 && this.input.charCodeAt(this.state.pos + 2) === 46) {
      this.state.pos += 3;
      this.finishToken(21);
    } else {
      ++this.state.pos;
      this.finishToken(16);
    }
  }
  readToken_slash() {
    const next = this.input.charCodeAt(this.state.pos + 1);
    if (next === 61) {
      this.finishOp(31, 2);
    } else {
      this.finishOp(56, 1);
    }
  }
  readToken_interpreter() {
    if (this.state.pos !== 0 || this.length < 2) return false;
    let ch = this.input.charCodeAt(this.state.pos + 1);
    if (ch !== 33) return false;
    const start = this.state.pos;
    this.state.pos += 1;
    while (!isNewLine(ch) && ++this.state.pos < this.length) {
      ch = this.input.charCodeAt(this.state.pos);
    }
    const value = this.input.slice(start + 2, this.state.pos);
    this.finishToken(28, value);
    return true;
  }
  readToken_mult_modulo(code) {
    let type = code === 42 ? 55 : 54;
    let width = 1;
    let next = this.input.charCodeAt(this.state.pos + 1);
    if (code === 42 && next === 42) {
      width++;
      next = this.input.charCodeAt(this.state.pos + 2);
      type = 57;
    }
    if (next === 61 && !this.state.inType) {
      width++;
      type = code === 37 ? 33 : 30;
    }
    this.finishOp(type, width);
  }
  readToken_pipe_amp(code) {
    const next = this.input.charCodeAt(this.state.pos + 1);
    if (next === code) {
      if (this.input.charCodeAt(this.state.pos + 2) === 61) {
        this.finishOp(30, 3);
      } else {
        this.finishOp(code === 124 ? 41 : 42, 2);
      }
      return;
    }
    if (code === 124) {
      if (next === 62) {
        this.finishOp(39, 2);
        return;
      }
      if (this.hasPlugin("recordAndTuple") && next === 125) {
        if (this.getPluginOption("recordAndTuple", "syntaxType") !== "bar") {
          throw this.raise(Errors.RecordExpressionBarIncorrectEndSyntaxType, {
            at: this.state.curPosition()
          });
        }
        this.state.pos += 2;
        this.finishToken(9);
        return;
      }
      if (this.hasPlugin("recordAndTuple") && next === 93) {
        if (this.getPluginOption("recordAndTuple", "syntaxType") !== "bar") {
          throw this.raise(Errors.TupleExpressionBarIncorrectEndSyntaxType, {
            at: this.state.curPosition()
          });
        }
        this.state.pos += 2;
        this.finishToken(4);
        return;
      }
    }
    if (next === 61) {
      this.finishOp(30, 2);
      return;
    }
    this.finishOp(code === 124 ? 43 : 45, 1);
  }
  readToken_caret() {
    const next = this.input.charCodeAt(this.state.pos + 1);
    if (next === 61 && !this.state.inType) {
      this.finishOp(32, 2);
    } else if (next === 94 && this.hasPlugin(["pipelineOperator", {
      proposal: "hack",
      topicToken: "^^"
    }])) {
      this.finishOp(37, 2);
      const lookaheadCh = this.input.codePointAt(this.state.pos);
      if (lookaheadCh === 94) {
        this.unexpected();
      }
    } else {
      this.finishOp(44, 1);
    }
  }
  readToken_atSign() {
    const next = this.input.charCodeAt(this.state.pos + 1);
    if (next === 64 && this.hasPlugin(["pipelineOperator", {
      proposal: "hack",
      topicToken: "@@"
    }])) {
      this.finishOp(38, 2);
    } else {
      this.finishOp(26, 1);
    }
  }
  readToken_plus_min(code) {
    const next = this.input.charCodeAt(this.state.pos + 1);
    if (next === code) {
      this.finishOp(34, 2);
      return;
    }
    if (next === 61) {
      this.finishOp(30, 2);
    } else {
      this.finishOp(53, 1);
    }
  }
  readToken_lt() {
    const {
      pos
    } = this.state;
    const next = this.input.charCodeAt(pos + 1);
    if (next === 60) {
      if (this.input.charCodeAt(pos + 2) === 61) {
        this.finishOp(30, 3);
        return;
      }
      this.finishOp(51, 2);
      return;
    }
    if (next === 61) {
      this.finishOp(49, 2);
      return;
    }
    this.finishOp(47, 1);
  }
  readToken_gt() {
    const {
      pos
    } = this.state;
    const next = this.input.charCodeAt(pos + 1);
    if (next === 62) {
      const size = this.input.charCodeAt(pos + 2) === 62 ? 3 : 2;
      if (this.input.charCodeAt(pos + size) === 61) {
        this.finishOp(30, size + 1);
        return;
      }
      this.finishOp(52, size);
      return;
    }
    if (next === 61) {
      this.finishOp(49, 2);
      return;
    }
    this.finishOp(48, 1);
  }
  readToken_eq_excl(code) {
    const next = this.input.charCodeAt(this.state.pos + 1);
    if (next === 61) {
      this.finishOp(46, this.input.charCodeAt(this.state.pos + 2) === 61 ? 3 : 2);
      return;
    }
    if (code === 61 && next === 62) {
      this.state.pos += 2;
      this.finishToken(19);
      return;
    }
    this.finishOp(code === 61 ? 29 : 35, 1);
  }
  readToken_question() {
    const next = this.input.charCodeAt(this.state.pos + 1);
    const next2 = this.input.charCodeAt(this.state.pos + 2);
    if (next === 63) {
      if (next2 === 61) {
        this.finishOp(30, 3);
      } else {
        this.finishOp(40, 2);
      }
    } else if (next === 46 && !(next2 >= 48 && next2 <= 57)) {
      this.state.pos += 2;
      this.finishToken(18);
    } else {
      ++this.state.pos;
      this.finishToken(17);
    }
  }
  getTokenFromCode(code) {
    switch (code) {
      case 46:
        this.readToken_dot();
        return;
      case 40:
        ++this.state.pos;
        this.finishToken(10);
        return;
      case 41:
        ++this.state.pos;
        this.finishToken(11);
        return;
      case 59:
        ++this.state.pos;
        this.finishToken(13);
        return;
      case 44:
        ++this.state.pos;
        this.finishToken(12);
        return;
      case 91:
        if (this.hasPlugin("recordAndTuple") && this.input.charCodeAt(this.state.pos + 1) === 124) {
          if (this.getPluginOption("recordAndTuple", "syntaxType") !== "bar") {
            throw this.raise(Errors.TupleExpressionBarIncorrectStartSyntaxType, {
              at: this.state.curPosition()
            });
          }
          this.state.pos += 2;
          this.finishToken(2);
        } else {
          ++this.state.pos;
          this.finishToken(0);
        }
        return;
      case 93:
        ++this.state.pos;
        this.finishToken(3);
        return;
      case 123:
        if (this.hasPlugin("recordAndTuple") && this.input.charCodeAt(this.state.pos + 1) === 124) {
          if (this.getPluginOption("recordAndTuple", "syntaxType") !== "bar") {
            throw this.raise(Errors.RecordExpressionBarIncorrectStartSyntaxType, {
              at: this.state.curPosition()
            });
          }
          this.state.pos += 2;
          this.finishToken(6);
        } else {
          ++this.state.pos;
          this.finishToken(5);
        }
        return;
      case 125:
        ++this.state.pos;
        this.finishToken(8);
        return;
      case 58:
        if (this.hasPlugin("functionBind") && this.input.charCodeAt(this.state.pos + 1) === 58) {
          this.finishOp(15, 2);
        } else {
          ++this.state.pos;
          this.finishToken(14);
        }
        return;
      case 63:
        this.readToken_question();
        return;
      case 96:
        this.readTemplateToken();
        return;
      case 48:
        {
          const next = this.input.charCodeAt(this.state.pos + 1);
          if (next === 120 || next === 88) {
            this.readRadixNumber(16);
            return;
          }
          if (next === 111 || next === 79) {
            this.readRadixNumber(8);
            return;
          }
          if (next === 98 || next === 66) {
            this.readRadixNumber(2);
            return;
          }
        }
      case 49:
      case 50:
      case 51:
      case 52:
      case 53:
      case 54:
      case 55:
      case 56:
      case 57:
        this.readNumber(false);
        return;
      case 34:
      case 39:
        this.readString(code);
        return;
      case 47:
        this.readToken_slash();
        return;
      case 37:
      case 42:
        this.readToken_mult_modulo(code);
        return;
      case 124:
      case 38:
        this.readToken_pipe_amp(code);
        return;
      case 94:
        this.readToken_caret();
        return;
      case 43:
      case 45:
        this.readToken_plus_min(code);
        return;
      case 60:
        this.readToken_lt();
        return;
      case 62:
        this.readToken_gt();
        return;
      case 61:
      case 33:
        this.readToken_eq_excl(code);
        return;
      case 126:
        this.finishOp(36, 1);
        return;
      case 64:
        this.readToken_atSign();
        return;
      case 35:
        this.readToken_numberSign();
        return;
      case 92:
        this.readWord();
        return;
      default:
        if (isIdentifierStart(code)) {
          this.readWord(code);
          return;
        }
    }
    throw this.raise(Errors.InvalidOrUnexpectedToken, {
      at: this.state.curPosition(),
      unexpected: String.fromCodePoint(code)
    });
  }
  finishOp(type, size) {
    const str = this.input.slice(this.state.pos, this.state.pos + size);
    this.state.pos += size;
    this.finishToken(type, str);
  }
  readRegexp() {
    const startLoc = this.state.startLoc;
    const start = this.state.start + 1;
    let escaped, inClass;
    let {
      pos
    } = this.state;
    for (;; ++pos) {
      if (pos >= this.length) {
        throw this.raise(Errors.UnterminatedRegExp, {
          at: createPositionWithColumnOffset(startLoc, 1)
        });
      }
      const ch = this.input.charCodeAt(pos);
      if (isNewLine(ch)) {
        throw this.raise(Errors.UnterminatedRegExp, {
          at: createPositionWithColumnOffset(startLoc, 1)
        });
      }
      if (escaped) {
        escaped = false;
      } else {
        if (ch === 91) {
          inClass = true;
        } else if (ch === 93 && inClass) {
          inClass = false;
        } else if (ch === 47 && !inClass) {
          break;
        }
        escaped = ch === 92;
      }
    }
    const content = this.input.slice(start, pos);
    ++pos;
    let mods = "";
    const nextPos = () => createPositionWithColumnOffset(startLoc, pos + 2 - start);
    while (pos < this.length) {
      const cp = this.codePointAtPos(pos);
      const char = String.fromCharCode(cp);
      if (VALID_REGEX_FLAGS.has(cp)) {
        if (cp === 118) {
          this.expectPlugin("regexpUnicodeSets", nextPos());
          if (mods.includes("u")) {
            this.raise(Errors.IncompatibleRegExpUVFlags, {
              at: nextPos()
            });
          }
        } else if (cp === 117) {
          if (mods.includes("v")) {
            this.raise(Errors.IncompatibleRegExpUVFlags, {
              at: nextPos()
            });
          }
        }
        if (mods.includes(char)) {
          this.raise(Errors.DuplicateRegExpFlags, {
            at: nextPos()
          });
        }
      } else if (isIdentifierChar(cp) || cp === 92) {
        this.raise(Errors.MalformedRegExpFlags, {
          at: nextPos()
        });
      } else {
        break;
      }
      ++pos;
      mods += char;
    }
    this.state.pos = pos;
    this.finishToken(135, {
      pattern: content,
      flags: mods
    });
  }
  readInt(radix, len, forceLen = false, allowNumSeparator = true) {
    const {
      n,
      pos
    } = readInt(this.input, this.state.pos, this.state.lineStart, this.state.curLine, radix, len, forceLen, allowNumSeparator, this.errorHandlers_readInt, false);
    this.state.pos = pos;
    return n;
  }
  readRadixNumber(radix) {
    const startLoc = this.state.curPosition();
    let isBigInt = false;
    this.state.pos += 2;
    const val = this.readInt(radix);
    if (val == null) {
      this.raise(Errors.InvalidDigit, {
        at: createPositionWithColumnOffset(startLoc, 2),
        radix
      });
    }
    const next = this.input.charCodeAt(this.state.pos);
    if (next === 110) {
      ++this.state.pos;
      isBigInt = true;
    } else if (next === 109) {
      throw this.raise(Errors.InvalidDecimal, {
        at: startLoc
      });
    }
    if (isIdentifierStart(this.codePointAtPos(this.state.pos))) {
      throw this.raise(Errors.NumberIdentifier, {
        at: this.state.curPosition()
      });
    }
    if (isBigInt) {
      const str = this.input.slice(startLoc.index, this.state.pos).replace(/[_n]/g, "");
      this.finishToken(133, str);
      return;
    }
    this.finishToken(132, val);
  }
  readNumber(startsWithDot) {
    const start = this.state.pos;
    const startLoc = this.state.curPosition();
    let isFloat = false;
    let isBigInt = false;
    let isDecimal = false;
    let hasExponent = false;
    let isOctal = false;
    if (!startsWithDot && this.readInt(10) === null) {
      this.raise(Errors.InvalidNumber, {
        at: this.state.curPosition()
      });
    }
    const hasLeadingZero = this.state.pos - start >= 2 && this.input.charCodeAt(start) === 48;
    if (hasLeadingZero) {
      const integer = this.input.slice(start, this.state.pos);
      this.recordStrictModeErrors(Errors.StrictOctalLiteral, {
        at: startLoc
      });
      if (!this.state.strict) {
        const underscorePos = integer.indexOf("_");
        if (underscorePos > 0) {
          this.raise(Errors.ZeroDigitNumericSeparator, {
            at: createPositionWithColumnOffset(startLoc, underscorePos)
          });
        }
      }
      isOctal = hasLeadingZero && !/[89]/.test(integer);
    }
    let next = this.input.charCodeAt(this.state.pos);
    if (next === 46 && !isOctal) {
      ++this.state.pos;
      this.readInt(10);
      isFloat = true;
      next = this.input.charCodeAt(this.state.pos);
    }
    if ((next === 69 || next === 101) && !isOctal) {
      next = this.input.charCodeAt(++this.state.pos);
      if (next === 43 || next === 45) {
        ++this.state.pos;
      }
      if (this.readInt(10) === null) {
        this.raise(Errors.InvalidOrMissingExponent, {
          at: startLoc
        });
      }
      isFloat = true;
      hasExponent = true;
      next = this.input.charCodeAt(this.state.pos);
    }
    if (next === 110) {
      if (isFloat || hasLeadingZero) {
        this.raise(Errors.InvalidBigIntLiteral, {
          at: startLoc
        });
      }
      ++this.state.pos;
      isBigInt = true;
    }
    if (next === 109) {
      this.expectPlugin("decimal", this.state.curPosition());
      if (hasExponent || hasLeadingZero) {
        this.raise(Errors.InvalidDecimal, {
          at: startLoc
        });
      }
      ++this.state.pos;
      isDecimal = true;
    }
    if (isIdentifierStart(this.codePointAtPos(this.state.pos))) {
      throw this.raise(Errors.NumberIdentifier, {
        at: this.state.curPosition()
      });
    }
    const str = this.input.slice(start, this.state.pos).replace(/[_mn]/g, "");
    if (isBigInt) {
      this.finishToken(133, str);
      return;
    }
    if (isDecimal) {
      this.finishToken(134, str);
      return;
    }
    const val = isOctal ? parseInt(str, 8) : parseFloat(str);
    this.finishToken(132, val);
  }
  readCodePoint(throwOnInvalid) {
    const {
      code,
      pos
    } = readCodePoint(this.input, this.state.pos, this.state.lineStart, this.state.curLine, throwOnInvalid, this.errorHandlers_readCodePoint);
    this.state.pos = pos;
    return code;
  }
  readString(quote) {
    const {
      str,
      pos,
      curLine,
      lineStart
    } = readStringContents(quote === 34 ? "double" : "single", this.input, this.state.pos + 1, this.state.lineStart, this.state.curLine, this.errorHandlers_readStringContents_string);
    this.state.pos = pos + 1;
    this.state.lineStart = lineStart;
    this.state.curLine = curLine;
    this.finishToken(131, str);
  }
  readTemplateContinuation() {
    if (!this.match(8)) {
      this.unexpected(null, 8);
    }
    this.state.pos--;
    this.readTemplateToken();
  }
  readTemplateToken() {
    const opening = this.input[this.state.pos];
    const {
      str,
      firstInvalidLoc,
      pos,
      curLine,
      lineStart
    } = readStringContents("template", this.input, this.state.pos + 1, this.state.lineStart, this.state.curLine, this.errorHandlers_readStringContents_template);
    this.state.pos = pos + 1;
    this.state.lineStart = lineStart;
    this.state.curLine = curLine;
    if (firstInvalidLoc) {
      this.state.firstInvalidTemplateEscapePos = new Position(firstInvalidLoc.curLine, firstInvalidLoc.pos - firstInvalidLoc.lineStart, firstInvalidLoc.pos);
    }
    if (this.input.codePointAt(pos) === 96) {
      this.finishToken(24, firstInvalidLoc ? null : opening + str + "`");
    } else {
      this.state.pos++;
      this.finishToken(25, firstInvalidLoc ? null : opening + str + "${");
    }
  }
  recordStrictModeErrors(toParseError, {
    at
  }) {
    const index = at.index;
    if (this.state.strict && !this.state.strictErrors.has(index)) {
      this.raise(toParseError, {
        at
      });
    } else {
      this.state.strictErrors.set(index, [toParseError, at]);
    }
  }
  readWord1(firstCode) {
    this.state.containsEsc = false;
    let word = "";
    const start = this.state.pos;
    let chunkStart = this.state.pos;
    if (firstCode !== undefined) {
      this.state.pos += firstCode <= 0xffff ? 1 : 2;
    }
    while (this.state.pos < this.length) {
      const ch = this.codePointAtPos(this.state.pos);
      if (isIdentifierChar(ch)) {
        this.state.pos += ch <= 0xffff ? 1 : 2;
      } else if (ch === 92) {
        this.state.containsEsc = true;
        word += this.input.slice(chunkStart, this.state.pos);
        const escStart = this.state.curPosition();
        const identifierCheck = this.state.pos === start ? isIdentifierStart : isIdentifierChar;
        if (this.input.charCodeAt(++this.state.pos) !== 117) {
          this.raise(Errors.MissingUnicodeEscape, {
            at: this.state.curPosition()
          });
          chunkStart = this.state.pos - 1;
          continue;
        }
        ++this.state.pos;
        const esc = this.readCodePoint(true);
        if (esc !== null) {
          if (!identifierCheck(esc)) {
            this.raise(Errors.EscapedCharNotAnIdentifier, {
              at: escStart
            });
          }
          word += String.fromCodePoint(esc);
        }
        chunkStart = this.state.pos;
      } else {
        break;
      }
    }
    return word + this.input.slice(chunkStart, this.state.pos);
  }
  readWord(firstCode) {
    const word = this.readWord1(firstCode);
    const type = keywords$1.get(word);
    if (type !== undefined) {
      this.finishToken(type, tokenLabelName(type));
    } else {
      this.finishToken(130, word);
    }
  }
  checkKeywordEscapes() {
    const {
      type
    } = this.state;
    if (tokenIsKeyword(type) && this.state.containsEsc) {
      this.raise(Errors.InvalidEscapedReservedWord, {
        at: this.state.startLoc,
        reservedWord: tokenLabelName(type)
      });
    }
  }
  raise(toParseError, raiseProperties) {
    const {
        at
      } = raiseProperties,
      details = _objectWithoutPropertiesLoose(raiseProperties, _excluded);
    const loc = at instanceof Position ? at : at.loc.start;
    const error = toParseError({
      loc,
      details
    });
    if (!this.options.errorRecovery) throw error;
    if (!this.isLookahead) this.state.errors.push(error);
    return error;
  }
  raiseOverwrite(toParseError, raiseProperties) {
    const {
        at
      } = raiseProperties,
      details = _objectWithoutPropertiesLoose(raiseProperties, _excluded2);
    const loc = at instanceof Position ? at : at.loc.start;
    const pos = loc.index;
    const errors = this.state.errors;
    for (let i = errors.length - 1; i >= 0; i--) {
      const error = errors[i];
      if (error.loc.index === pos) {
        return errors[i] = toParseError({
          loc,
          details
        });
      }
      if (error.loc.index < pos) break;
    }
    return this.raise(toParseError, raiseProperties);
  }
  updateContext(prevType) {}
  unexpected(loc, type) {
    throw this.raise(Errors.UnexpectedToken, {
      expected: type ? tokenLabelName(type) : null,
      at: loc != null ? loc : this.state.startLoc
    });
  }
  expectPlugin(pluginName, loc) {
    if (this.hasPlugin(pluginName)) {
      return true;
    }
    throw this.raise(Errors.MissingPlugin, {
      at: loc != null ? loc : this.state.startLoc,
      missingPlugin: [pluginName]
    });
  }
  expectOnePlugin(pluginNames) {
    if (!pluginNames.some(name => this.hasPlugin(name))) {
      throw this.raise(Errors.MissingOneOfPlugins, {
        at: this.state.startLoc,
        missingPlugin: pluginNames
      });
    }
  }
  errorBuilder(error) {
    return (pos, lineStart, curLine) => {
      this.raise(error, {
        at: buildPosition(pos, lineStart, curLine)
      });
    };
  }
}
class ClassScope {
  constructor() {
    this.privateNames = new Set();
    this.loneAccessors = new Map();
    this.undefinedPrivateNames = new Map();
  }
}
class ClassScopeHandler {
  constructor(parser) {
    this.parser = void 0;
    this.stack = [];
    this.undefinedPrivateNames = new Map();
    this.parser = parser;
  }
  current() {
    return this.stack[this.stack.length - 1];
  }
  enter() {
    this.stack.push(new ClassScope());
  }
  exit() {
    const oldClassScope = this.stack.pop();
    const current = this.current();
    for (const [name, loc] of Array.from(oldClassScope.undefinedPrivateNames)) {
      if (current) {
        if (!current.undefinedPrivateNames.has(name)) {
          current.undefinedPrivateNames.set(name, loc);
        }
      } else {
        this.parser.raise(Errors.InvalidPrivateFieldResolution, {
          at: loc,
          identifierName: name
        });
      }
    }
  }
  declarePrivateName(name, elementType, loc) {
    const {
      privateNames,
      loneAccessors,
      undefinedPrivateNames
    } = this.current();
    let redefined = privateNames.has(name);
    if (elementType & CLASS_ELEMENT_KIND_ACCESSOR) {
      const accessor = redefined && loneAccessors.get(name);
      if (accessor) {
        const oldStatic = accessor & CLASS_ELEMENT_FLAG_STATIC;
        const newStatic = elementType & CLASS_ELEMENT_FLAG_STATIC;
        const oldKind = accessor & CLASS_ELEMENT_KIND_ACCESSOR;
        const newKind = elementType & CLASS_ELEMENT_KIND_ACCESSOR;
        redefined = oldKind === newKind || oldStatic !== newStatic;
        if (!redefined) loneAccessors.delete(name);
      } else if (!redefined) {
        loneAccessors.set(name, elementType);
      }
    }
    if (redefined) {
      this.parser.raise(Errors.PrivateNameRedeclaration, {
        at: loc,
        identifierName: name
      });
    }
    privateNames.add(name);
    undefinedPrivateNames.delete(name);
  }
  usePrivateName(name, loc) {
    let classScope;
    for (classScope of this.stack) {
      if (classScope.privateNames.has(name)) return;
    }
    if (classScope) {
      classScope.undefinedPrivateNames.set(name, loc);
    } else {
      this.parser.raise(Errors.InvalidPrivateFieldResolution, {
        at: loc,
        identifierName: name
      });
    }
  }
}
const kExpression = 0,
  kMaybeArrowParameterDeclaration = 1,
  kMaybeAsyncArrowParameterDeclaration = 2,
  kParameterDeclaration = 3;
class ExpressionScope {
  constructor(type = kExpression) {
    this.type = void 0;
    this.type = type;
  }
  canBeArrowParameterDeclaration() {
    return this.type === kMaybeAsyncArrowParameterDeclaration || this.type === kMaybeArrowParameterDeclaration;
  }
  isCertainlyParameterDeclaration() {
    return this.type === kParameterDeclaration;
  }
}
class ArrowHeadParsingScope extends ExpressionScope {
  constructor(type) {
    super(type);
    this.declarationErrors = new Map();
  }
  recordDeclarationError(ParsingErrorClass, {
    at
  }) {
    const index = at.index;
    this.declarationErrors.set(index, [ParsingErrorClass, at]);
  }
  clearDeclarationError(index) {
    this.declarationErrors.delete(index);
  }
  iterateErrors(iterator) {
    this.declarationErrors.forEach(iterator);
  }
}
class ExpressionScopeHandler {
  constructor(parser) {
    this.parser = void 0;
    this.stack = [new ExpressionScope()];
    this.parser = parser;
  }
  enter(scope) {
    this.stack.push(scope);
  }
  exit() {
    this.stack.pop();
  }
  recordParameterInitializerError(toParseError, {
    at: node
  }) {
    const origin = {
      at: node.loc.start
    };
    const {
      stack
    } = this;
    let i = stack.length - 1;
    let scope = stack[i];
    while (!scope.isCertainlyParameterDeclaration()) {
      if (scope.canBeArrowParameterDeclaration()) {
        scope.recordDeclarationError(toParseError, origin);
      } else {
        return;
      }
      scope = stack[--i];
    }
    this.parser.raise(toParseError, origin);
  }
  recordArrowParameterBindingError(error, {
    at: node
  }) {
    const {
      stack
    } = this;
    const scope = stack[stack.length - 1];
    const origin = {
      at: node.loc.start
    };
    if (scope.isCertainlyParameterDeclaration()) {
      this.parser.raise(error, origin);
    } else if (scope.canBeArrowParameterDeclaration()) {
      scope.recordDeclarationError(error, origin);
    } else {
      return;
    }
  }
  recordAsyncArrowParametersError({
    at
  }) {
    const {
      stack
    } = this;
    let i = stack.length - 1;
    let scope = stack[i];
    while (scope.canBeArrowParameterDeclaration()) {
      if (scope.type === kMaybeAsyncArrowParameterDeclaration) {
        scope.recordDeclarationError(Errors.AwaitBindingIdentifier, {
          at
        });
      }
      scope = stack[--i];
    }
  }
  validateAsPattern() {
    const {
      stack
    } = this;
    const currentScope = stack[stack.length - 1];
    if (!currentScope.canBeArrowParameterDeclaration()) return;
    currentScope.iterateErrors(([toParseError, loc]) => {
      this.parser.raise(toParseError, {
        at: loc
      });
      let i = stack.length - 2;
      let scope = stack[i];
      while (scope.canBeArrowParameterDeclaration()) {
        scope.clearDeclarationError(loc.index);
        scope = stack[--i];
      }
    });
  }
}
function newParameterDeclarationScope() {
  return new ExpressionScope(kParameterDeclaration);
}
function newArrowHeadScope() {
  return new ArrowHeadParsingScope(kMaybeArrowParameterDeclaration);
}
function newAsyncArrowScope() {
  return new ArrowHeadParsingScope(kMaybeAsyncArrowParameterDeclaration);
}
function newExpressionScope() {
  return new ExpressionScope();
}
const PARAM = 0b0000,
  PARAM_YIELD = 0b0001,
  PARAM_AWAIT = 0b0010,
  PARAM_RETURN = 0b0100,
  PARAM_IN = 0b1000;
class ProductionParameterHandler {
  constructor() {
    this.stacks = [];
  }
  enter(flags) {
    this.stacks.push(flags);
  }
  exit() {
    this.stacks.pop();
  }
  currentFlags() {
    return this.stacks[this.stacks.length - 1];
  }
  get hasAwait() {
    return (this.currentFlags() & PARAM_AWAIT) > 0;
  }
  get hasYield() {
    return (this.currentFlags() & PARAM_YIELD) > 0;
  }
  get hasReturn() {
    return (this.currentFlags() & PARAM_RETURN) > 0;
  }
  get hasIn() {
    return (this.currentFlags() & PARAM_IN) > 0;
  }
}
function functionFlags(isAsync, isGenerator) {
  return (isAsync ? PARAM_AWAIT : 0) | (isGenerator ? PARAM_YIELD : 0);
}
class UtilParser extends Tokenizer {
  addExtra(node, key, value, enumerable = true) {
    if (!node) return;
    const extra = node.extra = node.extra || {};
    if (enumerable) {
      extra[key] = value;
    } else {
      Object.defineProperty(extra, key, {
        enumerable,
        value
      });
    }
  }
  isContextual(token) {
    return this.state.type === token && !this.state.containsEsc;
  }
  isUnparsedContextual(nameStart, name) {
    const nameEnd = nameStart + name.length;
    if (this.input.slice(nameStart, nameEnd) === name) {
      const nextCh = this.input.charCodeAt(nameEnd);
      return !(isIdentifierChar(nextCh) || (nextCh & 0xfc00) === 0xd800);
    }
    return false;
  }
  isLookaheadContextual(name) {
    const next = this.nextTokenStart();
    return this.isUnparsedContextual(next, name);
  }
  eatContextual(token) {
    if (this.isContextual(token)) {
      this.next();
      return true;
    }
    return false;
  }
  expectContextual(token, toParseError) {
    if (!this.eatContextual(token)) {
      if (toParseError != null) {
        throw this.raise(toParseError, {
          at: this.state.startLoc
        });
      }
      this.unexpected(null, token);
    }
  }
  canInsertSemicolon() {
    return this.match(137) || this.match(8) || this.hasPrecedingLineBreak();
  }
  hasPrecedingLineBreak() {
    return lineBreak.test(this.input.slice(this.state.lastTokEndLoc.index, this.state.start));
  }
  hasFollowingLineBreak() {
    skipWhiteSpaceToLineBreak.lastIndex = this.state.end;
    return skipWhiteSpaceToLineBreak.test(this.input);
  }
  isLineTerminator() {
    return this.eat(13) || this.canInsertSemicolon();
  }
  semicolon(allowAsi = true) {
    if (allowAsi ? this.isLineTerminator() : this.eat(13)) return;
    this.raise(Errors.MissingSemicolon, {
      at: this.state.lastTokEndLoc
    });
  }
  expect(type, loc) {
    this.eat(type) || this.unexpected(loc, type);
  }
  tryParse(fn, oldState = this.state.clone()) {
    const abortSignal = {
      node: null
    };
    try {
      const node = fn((node = null) => {
        abortSignal.node = node;
        throw abortSignal;
      });
      if (this.state.errors.length > oldState.errors.length) {
        const failState = this.state;
        this.state = oldState;
        this.state.tokensLength = failState.tokensLength;
        return {
          node,
          error: failState.errors[oldState.errors.length],
          thrown: false,
          aborted: false,
          failState
        };
      }
      return {
        node,
        error: null,
        thrown: false,
        aborted: false,
        failState: null
      };
    } catch (error) {
      const failState = this.state;
      this.state = oldState;
      if (error instanceof SyntaxError) {
        return {
          node: null,
          error,
          thrown: true,
          aborted: false,
          failState
        };
      }
      if (error === abortSignal) {
        return {
          node: abortSignal.node,
          error: null,
          thrown: false,
          aborted: true,
          failState
        };
      }
      throw error;
    }
  }
  checkExpressionErrors(refExpressionErrors, andThrow) {
    if (!refExpressionErrors) return false;
    const {
      shorthandAssignLoc,
      doubleProtoLoc,
      privateKeyLoc,
      optionalParametersLoc
    } = refExpressionErrors;
    const hasErrors = !!shorthandAssignLoc || !!doubleProtoLoc || !!optionalParametersLoc || !!privateKeyLoc;
    if (!andThrow) {
      return hasErrors;
    }
    if (shorthandAssignLoc != null) {
      this.raise(Errors.InvalidCoverInitializedName, {
        at: shorthandAssignLoc
      });
    }
    if (doubleProtoLoc != null) {
      this.raise(Errors.DuplicateProto, {
        at: doubleProtoLoc
      });
    }
    if (privateKeyLoc != null) {
      this.raise(Errors.UnexpectedPrivateField, {
        at: privateKeyLoc
      });
    }
    if (optionalParametersLoc != null) {
      this.unexpected(optionalParametersLoc);
    }
  }
  isLiteralPropertyName() {
    return tokenIsLiteralPropertyName(this.state.type);
  }
  isPrivateName(node) {
    return node.type === "PrivateName";
  }
  getPrivateNameSV(node) {
    return node.id.name;
  }
  hasPropertyAsPrivateName(node) {
    return (node.type === "MemberExpression" || node.type === "OptionalMemberExpression") && this.isPrivateName(node.property);
  }
  isObjectProperty(node) {
    return node.type === "ObjectProperty";
  }
  isObjectMethod(node) {
    return node.type === "ObjectMethod";
  }
  initializeScopes(inModule = this.options.sourceType === "module") {
    const oldLabels = this.state.labels;
    this.state.labels = [];
    const oldExportedIdentifiers = this.exportedIdentifiers;
    this.exportedIdentifiers = new Set();
    const oldInModule = this.inModule;
    this.inModule = inModule;
    const oldScope = this.scope;
    const ScopeHandler = this.getScopeHandler();
    this.scope = new ScopeHandler(this, inModule);
    const oldProdParam = this.prodParam;
    this.prodParam = new ProductionParameterHandler();
    const oldClassScope = this.classScope;
    this.classScope = new ClassScopeHandler(this);
    const oldExpressionScope = this.expressionScope;
    this.expressionScope = new ExpressionScopeHandler(this);
    return () => {
      this.state.labels = oldLabels;
      this.exportedIdentifiers = oldExportedIdentifiers;
      this.inModule = oldInModule;
      this.scope = oldScope;
      this.prodParam = oldProdParam;
      this.classScope = oldClassScope;
      this.expressionScope = oldExpressionScope;
    };
  }
  enterInitialScopes() {
    let paramFlags = PARAM;
    if (this.inModule) {
      paramFlags |= PARAM_AWAIT;
    }
    this.scope.enter(SCOPE_PROGRAM);
    this.prodParam.enter(paramFlags);
  }
  checkDestructuringPrivate(refExpressionErrors) {
    const {
      privateKeyLoc
    } = refExpressionErrors;
    if (privateKeyLoc !== null) {
      this.expectPlugin("destructuringPrivate", privateKeyLoc);
    }
  }
}
class ExpressionErrors {
  constructor() {
    this.shorthandAssignLoc = null;
    this.doubleProtoLoc = null;
    this.privateKeyLoc = null;
    this.optionalParametersLoc = null;
  }
}
let Node$5 = class Node {
  constructor(parser, pos, loc) {
    this.type = "";
    this.start = pos;
    this.end = 0;
    this.loc = new SourceLocation(loc);
    if (parser != null && parser.options.ranges) this.range = [pos, 0];
    if (parser != null && parser.filename) this.loc.filename = parser.filename;
  }
};
const NodePrototype = Node$5.prototype;
{
  NodePrototype.__clone = function () {
    const newNode = new Node$5(undefined, this.start, this.loc.start);
    const keys = Object.keys(this);
    for (let i = 0, length = keys.length; i < length; i++) {
      const key = keys[i];
      if (key !== "leadingComments" && key !== "trailingComments" && key !== "innerComments") {
        newNode[key] = this[key];
      }
    }
    return newNode;
  };
}
function clonePlaceholder(node) {
  return cloneIdentifier(node);
}
function cloneIdentifier(node) {
  const {
    type,
    start,
    end,
    loc,
    range,
    extra,
    name
  } = node;
  const cloned = Object.create(NodePrototype);
  cloned.type = type;
  cloned.start = start;
  cloned.end = end;
  cloned.loc = loc;
  cloned.range = range;
  cloned.extra = extra;
  cloned.name = name;
  if (type === "Placeholder") {
    cloned.expectedNode = node.expectedNode;
  }
  return cloned;
}
function cloneStringLiteral(node) {
  const {
    type,
    start,
    end,
    loc,
    range,
    extra
  } = node;
  if (type === "Placeholder") {
    return clonePlaceholder(node);
  }
  const cloned = Object.create(NodePrototype);
  cloned.type = type;
  cloned.start = start;
  cloned.end = end;
  cloned.loc = loc;
  cloned.range = range;
  if (node.raw !== undefined) {
    cloned.raw = node.raw;
  } else {
    cloned.extra = extra;
  }
  cloned.value = node.value;
  return cloned;
}
class NodeUtils extends UtilParser {
  startNode() {
    return new Node$5(this, this.state.start, this.state.startLoc);
  }
  startNodeAt(loc) {
    return new Node$5(this, loc.index, loc);
  }
  startNodeAtNode(type) {
    return this.startNodeAt(type.loc.start);
  }
  finishNode(node, type) {
    return this.finishNodeAt(node, type, this.state.lastTokEndLoc);
  }
  finishNodeAt(node, type, endLoc) {
    node.type = type;
    node.end = endLoc.index;
    node.loc.end = endLoc;
    if (this.options.ranges) node.range[1] = endLoc.index;
    if (this.options.attachComment) this.processComment(node);
    return node;
  }
  resetStartLocation(node, startLoc) {
    node.start = startLoc.index;
    node.loc.start = startLoc;
    if (this.options.ranges) node.range[0] = startLoc.index;
  }
  resetEndLocation(node, endLoc = this.state.lastTokEndLoc) {
    node.end = endLoc.index;
    node.loc.end = endLoc;
    if (this.options.ranges) node.range[1] = endLoc.index;
  }
  resetStartLocationFromNode(node, locationNode) {
    this.resetStartLocation(node, locationNode.loc.start);
  }
}
const reservedTypes = new Set(["_", "any", "bool", "boolean", "empty", "extends", "false", "interface", "mixed", "null", "number", "static", "string", "true", "typeof", "void"]);
const FlowErrors = ParseErrorEnum`flow`({
  AmbiguousConditionalArrow: "Ambiguous expression: wrap the arrow functions in parentheses to disambiguate.",
  AmbiguousDeclareModuleKind: "Found both `declare module.exports` and `declare export` in the same module. Modules can only have 1 since they are either an ES module or they are a CommonJS module.",
  AssignReservedType: ({
    reservedType
  }) => `Cannot overwrite reserved type ${reservedType}.`,
  DeclareClassElement: "The `declare` modifier can only appear on class fields.",
  DeclareClassFieldInitializer: "Initializers are not allowed in fields with the `declare` modifier.",
  DuplicateDeclareModuleExports: "Duplicate `declare module.exports` statement.",
  EnumBooleanMemberNotInitialized: ({
    memberName,
    enumName
  }) => `Boolean enum members need to be initialized. Use either \`${memberName} = true,\` or \`${memberName} = false,\` in enum \`${enumName}\`.`,
  EnumDuplicateMemberName: ({
    memberName,
    enumName
  }) => `Enum member names need to be unique, but the name \`${memberName}\` has already been used before in enum \`${enumName}\`.`,
  EnumInconsistentMemberValues: ({
    enumName
  }) => `Enum \`${enumName}\` has inconsistent member initializers. Either use no initializers, or consistently use literals (either booleans, numbers, or strings) for all member initializers.`,
  EnumInvalidExplicitType: ({
    invalidEnumType,
    enumName
  }) => `Enum type \`${invalidEnumType}\` is not valid. Use one of \`boolean\`, \`number\`, \`string\`, or \`symbol\` in enum \`${enumName}\`.`,
  EnumInvalidExplicitTypeUnknownSupplied: ({
    enumName
  }) => `Supplied enum type is not valid. Use one of \`boolean\`, \`number\`, \`string\`, or \`symbol\` in enum \`${enumName}\`.`,
  EnumInvalidMemberInitializerPrimaryType: ({
    enumName,
    memberName,
    explicitType
  }) => `Enum \`${enumName}\` has type \`${explicitType}\`, so the initializer of \`${memberName}\` needs to be a ${explicitType} literal.`,
  EnumInvalidMemberInitializerSymbolType: ({
    enumName,
    memberName
  }) => `Symbol enum members cannot be initialized. Use \`${memberName},\` in enum \`${enumName}\`.`,
  EnumInvalidMemberInitializerUnknownType: ({
    enumName,
    memberName
  }) => `The enum member initializer for \`${memberName}\` needs to be a literal (either a boolean, number, or string) in enum \`${enumName}\`.`,
  EnumInvalidMemberName: ({
    enumName,
    memberName,
    suggestion
  }) => `Enum member names cannot start with lowercase 'a' through 'z'. Instead of using \`${memberName}\`, consider using \`${suggestion}\`, in enum \`${enumName}\`.`,
  EnumNumberMemberNotInitialized: ({
    enumName,
    memberName
  }) => `Number enum members need to be initialized, e.g. \`${memberName} = 1\` in enum \`${enumName}\`.`,
  EnumStringMemberInconsistentlyInitailized: ({
    enumName
  }) => `String enum members need to consistently either all use initializers, or use no initializers, in enum \`${enumName}\`.`,
  GetterMayNotHaveThisParam: "A getter cannot have a `this` parameter.",
  ImportReflectionHasImportType: "An `import module` declaration can not use `type` or `typeof` keyword.",
  ImportTypeShorthandOnlyInPureImport: "The `type` and `typeof` keywords on named imports can only be used on regular `import` statements. It cannot be used with `import type` or `import typeof` statements.",
  InexactInsideExact: "Explicit inexact syntax cannot appear inside an explicit exact object type.",
  InexactInsideNonObject: "Explicit inexact syntax cannot appear in class or interface definitions.",
  InexactVariance: "Explicit inexact syntax cannot have variance.",
  InvalidNonTypeImportInDeclareModule: "Imports within a `declare module` body must always be `import type` or `import typeof`.",
  MissingTypeParamDefault: "Type parameter declaration needs a default, since a preceding type parameter declaration has a default.",
  NestedDeclareModule: "`declare module` cannot be used inside another `declare module`.",
  NestedFlowComment: "Cannot have a flow comment inside another flow comment.",
  PatternIsOptional: Object.assign({
    message: "A binding pattern parameter cannot be optional in an implementation signature."
  }, {
    reasonCode: "OptionalBindingPattern"
  }),
  SetterMayNotHaveThisParam: "A setter cannot have a `this` parameter.",
  SpreadVariance: "Spread properties cannot have variance.",
  ThisParamAnnotationRequired: "A type annotation is required for the `this` parameter.",
  ThisParamBannedInConstructor: "Constructors cannot have a `this` parameter; constructors don't bind `this` like other functions.",
  ThisParamMayNotBeOptional: "The `this` parameter cannot be optional.",
  ThisParamMustBeFirst: "The `this` parameter must be the first function parameter.",
  ThisParamNoDefault: "The `this` parameter may not have a default value.",
  TypeBeforeInitializer: "Type annotations must come before default assignments, e.g. instead of `age = 25: number` use `age: number = 25`.",
  TypeCastInPattern: "The type cast expression is expected to be wrapped with parenthesis.",
  UnexpectedExplicitInexactInObject: "Explicit inexact syntax must appear at the end of an inexact object.",
  UnexpectedReservedType: ({
    reservedType
  }) => `Unexpected reserved type ${reservedType}.`,
  UnexpectedReservedUnderscore: "`_` is only allowed as a type argument to call or new.",
  UnexpectedSpaceBetweenModuloChecks: "Spaces between `%` and `checks` are not allowed here.",
  UnexpectedSpreadType: "Spread operator cannot appear in class or interface definitions.",
  UnexpectedSubtractionOperand: 'Unexpected token, expected "number" or "bigint".',
  UnexpectedTokenAfterTypeParameter: "Expected an arrow function after this type parameter declaration.",
  UnexpectedTypeParameterBeforeAsyncArrowFunction: "Type parameters must come after the async keyword, e.g. instead of `<T> async () => {}`, use `async <T>() => {}`.",
  UnsupportedDeclareExportKind: ({
    unsupportedExportKind,
    suggestion
  }) => `\`declare export ${unsupportedExportKind}\` is not supported. Use \`${suggestion}\` instead.`,
  UnsupportedStatementInDeclareModule: "Only declares and type imports are allowed inside declare module.",
  UnterminatedFlowComment: "Unterminated flow-comment."
});
function isEsModuleType(bodyElement) {
  return bodyElement.type === "DeclareExportAllDeclaration" || bodyElement.type === "DeclareExportDeclaration" && (!bodyElement.declaration || bodyElement.declaration.type !== "TypeAlias" && bodyElement.declaration.type !== "InterfaceDeclaration");
}
function hasTypeImportKind(node) {
  return node.importKind === "type" || node.importKind === "typeof";
}
function isMaybeDefaultImport(type) {
  return tokenIsKeywordOrIdentifier(type) && type !== 97;
}
const exportSuggestions = {
  const: "declare export var",
  let: "declare export var",
  type: "export type",
  interface: "export interface"
};
function partition(list, test) {
  const list1 = [];
  const list2 = [];
  for (let i = 0; i < list.length; i++) {
    (test(list[i], i, list) ? list1 : list2).push(list[i]);
  }
  return [list1, list2];
}
const FLOW_PRAGMA_REGEX = /\*?\s*@((?:no)?flow)\b/;
var flow = superClass => class FlowParserMixin extends superClass {
  constructor(...args) {
    super(...args);
    this.flowPragma = undefined;
  }
  getScopeHandler() {
    return FlowScopeHandler;
  }
  shouldParseTypes() {
    return this.getPluginOption("flow", "all") || this.flowPragma === "flow";
  }
  shouldParseEnums() {
    return !!this.getPluginOption("flow", "enums");
  }
  finishToken(type, val) {
    if (type !== 131 && type !== 13 && type !== 28) {
      if (this.flowPragma === undefined) {
        this.flowPragma = null;
      }
    }
    super.finishToken(type, val);
  }
  addComment(comment) {
    if (this.flowPragma === undefined) {
      const matches = FLOW_PRAGMA_REGEX.exec(comment.value);
      if (!matches) ;else if (matches[1] === "flow") {
        this.flowPragma = "flow";
      } else if (matches[1] === "noflow") {
        this.flowPragma = "noflow";
      } else {
        throw new Error("Unexpected flow pragma");
      }
    }
    super.addComment(comment);
  }
  flowParseTypeInitialiser(tok) {
    const oldInType = this.state.inType;
    this.state.inType = true;
    this.expect(tok || 14);
    const type = this.flowParseType();
    this.state.inType = oldInType;
    return type;
  }
  flowParsePredicate() {
    const node = this.startNode();
    const moduloLoc = this.state.startLoc;
    this.next();
    this.expectContextual(108);
    if (this.state.lastTokStart > moduloLoc.index + 1) {
      this.raise(FlowErrors.UnexpectedSpaceBetweenModuloChecks, {
        at: moduloLoc
      });
    }
    if (this.eat(10)) {
      node.value = super.parseExpression();
      this.expect(11);
      return this.finishNode(node, "DeclaredPredicate");
    } else {
      return this.finishNode(node, "InferredPredicate");
    }
  }
  flowParseTypeAndPredicateInitialiser() {
    const oldInType = this.state.inType;
    this.state.inType = true;
    this.expect(14);
    let type = null;
    let predicate = null;
    if (this.match(54)) {
      this.state.inType = oldInType;
      predicate = this.flowParsePredicate();
    } else {
      type = this.flowParseType();
      this.state.inType = oldInType;
      if (this.match(54)) {
        predicate = this.flowParsePredicate();
      }
    }
    return [type, predicate];
  }
  flowParseDeclareClass(node) {
    this.next();
    this.flowParseInterfaceish(node, true);
    return this.finishNode(node, "DeclareClass");
  }
  flowParseDeclareFunction(node) {
    this.next();
    const id = node.id = this.parseIdentifier();
    const typeNode = this.startNode();
    const typeContainer = this.startNode();
    if (this.match(47)) {
      typeNode.typeParameters = this.flowParseTypeParameterDeclaration();
    } else {
      typeNode.typeParameters = null;
    }
    this.expect(10);
    const tmp = this.flowParseFunctionTypeParams();
    typeNode.params = tmp.params;
    typeNode.rest = tmp.rest;
    typeNode.this = tmp._this;
    this.expect(11);
    [typeNode.returnType, node.predicate] = this.flowParseTypeAndPredicateInitialiser();
    typeContainer.typeAnnotation = this.finishNode(typeNode, "FunctionTypeAnnotation");
    id.typeAnnotation = this.finishNode(typeContainer, "TypeAnnotation");
    this.resetEndLocation(id);
    this.semicolon();
    this.scope.declareName(node.id.name, BIND_FLOW_DECLARE_FN, node.id.loc.start);
    return this.finishNode(node, "DeclareFunction");
  }
  flowParseDeclare(node, insideModule) {
    if (this.match(80)) {
      return this.flowParseDeclareClass(node);
    } else if (this.match(68)) {
      return this.flowParseDeclareFunction(node);
    } else if (this.match(74)) {
      return this.flowParseDeclareVariable(node);
    } else if (this.eatContextual(125)) {
      if (this.match(16)) {
        return this.flowParseDeclareModuleExports(node);
      } else {
        if (insideModule) {
          this.raise(FlowErrors.NestedDeclareModule, {
            at: this.state.lastTokStartLoc
          });
        }
        return this.flowParseDeclareModule(node);
      }
    } else if (this.isContextual(128)) {
      return this.flowParseDeclareTypeAlias(node);
    } else if (this.isContextual(129)) {
      return this.flowParseDeclareOpaqueType(node);
    } else if (this.isContextual(127)) {
      return this.flowParseDeclareInterface(node);
    } else if (this.match(82)) {
      return this.flowParseDeclareExportDeclaration(node, insideModule);
    } else {
      this.unexpected();
    }
  }
  flowParseDeclareVariable(node) {
    this.next();
    node.id = this.flowParseTypeAnnotatableIdentifier(true);
    this.scope.declareName(node.id.name, BIND_VAR, node.id.loc.start);
    this.semicolon();
    return this.finishNode(node, "DeclareVariable");
  }
  flowParseDeclareModule(node) {
    this.scope.enter(SCOPE_OTHER);
    if (this.match(131)) {
      node.id = super.parseExprAtom();
    } else {
      node.id = this.parseIdentifier();
    }
    const bodyNode = node.body = this.startNode();
    const body = bodyNode.body = [];
    this.expect(5);
    while (!this.match(8)) {
      let bodyNode = this.startNode();
      if (this.match(83)) {
        this.next();
        if (!this.isContextual(128) && !this.match(87)) {
          this.raise(FlowErrors.InvalidNonTypeImportInDeclareModule, {
            at: this.state.lastTokStartLoc
          });
        }
        super.parseImport(bodyNode);
      } else {
        this.expectContextual(123, FlowErrors.UnsupportedStatementInDeclareModule);
        bodyNode = this.flowParseDeclare(bodyNode, true);
      }
      body.push(bodyNode);
    }
    this.scope.exit();
    this.expect(8);
    this.finishNode(bodyNode, "BlockStatement");
    let kind = null;
    let hasModuleExport = false;
    body.forEach(bodyElement => {
      if (isEsModuleType(bodyElement)) {
        if (kind === "CommonJS") {
          this.raise(FlowErrors.AmbiguousDeclareModuleKind, {
            at: bodyElement
          });
        }
        kind = "ES";
      } else if (bodyElement.type === "DeclareModuleExports") {
        if (hasModuleExport) {
          this.raise(FlowErrors.DuplicateDeclareModuleExports, {
            at: bodyElement
          });
        }
        if (kind === "ES") {
          this.raise(FlowErrors.AmbiguousDeclareModuleKind, {
            at: bodyElement
          });
        }
        kind = "CommonJS";
        hasModuleExport = true;
      }
    });
    node.kind = kind || "CommonJS";
    return this.finishNode(node, "DeclareModule");
  }
  flowParseDeclareExportDeclaration(node, insideModule) {
    this.expect(82);
    if (this.eat(65)) {
      if (this.match(68) || this.match(80)) {
        node.declaration = this.flowParseDeclare(this.startNode());
      } else {
        node.declaration = this.flowParseType();
        this.semicolon();
      }
      node.default = true;
      return this.finishNode(node, "DeclareExportDeclaration");
    } else {
      if (this.match(75) || this.isLet() || (this.isContextual(128) || this.isContextual(127)) && !insideModule) {
        const label = this.state.value;
        throw this.raise(FlowErrors.UnsupportedDeclareExportKind, {
          at: this.state.startLoc,
          unsupportedExportKind: label,
          suggestion: exportSuggestions[label]
        });
      }
      if (this.match(74) || this.match(68) || this.match(80) || this.isContextual(129)) {
        node.declaration = this.flowParseDeclare(this.startNode());
        node.default = false;
        return this.finishNode(node, "DeclareExportDeclaration");
      } else if (this.match(55) || this.match(5) || this.isContextual(127) || this.isContextual(128) || this.isContextual(129)) {
        node = this.parseExport(node, null);
        if (node.type === "ExportNamedDeclaration") {
          node.type = "ExportDeclaration";
          node.default = false;
          delete node.exportKind;
        }
        node.type = "Declare" + node.type;
        return node;
      }
    }
    this.unexpected();
  }
  flowParseDeclareModuleExports(node) {
    this.next();
    this.expectContextual(109);
    node.typeAnnotation = this.flowParseTypeAnnotation();
    this.semicolon();
    return this.finishNode(node, "DeclareModuleExports");
  }
  flowParseDeclareTypeAlias(node) {
    this.next();
    const finished = this.flowParseTypeAlias(node);
    finished.type = "DeclareTypeAlias";
    return finished;
  }
  flowParseDeclareOpaqueType(node) {
    this.next();
    const finished = this.flowParseOpaqueType(node, true);
    finished.type = "DeclareOpaqueType";
    return finished;
  }
  flowParseDeclareInterface(node) {
    this.next();
    this.flowParseInterfaceish(node, false);
    return this.finishNode(node, "DeclareInterface");
  }
  flowParseInterfaceish(node, isClass) {
    node.id = this.flowParseRestrictedIdentifier(!isClass, true);
    this.scope.declareName(node.id.name, isClass ? BIND_FUNCTION : BIND_LEXICAL, node.id.loc.start);
    if (this.match(47)) {
      node.typeParameters = this.flowParseTypeParameterDeclaration();
    } else {
      node.typeParameters = null;
    }
    node.extends = [];
    node.implements = [];
    node.mixins = [];
    if (this.eat(81)) {
      do {
        node.extends.push(this.flowParseInterfaceExtends());
      } while (!isClass && this.eat(12));
    }
    if (isClass) {
      if (this.eatContextual(115)) {
        do {
          node.mixins.push(this.flowParseInterfaceExtends());
        } while (this.eat(12));
      }
      if (this.eatContextual(111)) {
        do {
          node.implements.push(this.flowParseInterfaceExtends());
        } while (this.eat(12));
      }
    }
    node.body = this.flowParseObjectType({
      allowStatic: isClass,
      allowExact: false,
      allowSpread: false,
      allowProto: isClass,
      allowInexact: false
    });
  }
  flowParseInterfaceExtends() {
    const node = this.startNode();
    node.id = this.flowParseQualifiedTypeIdentifier();
    if (this.match(47)) {
      node.typeParameters = this.flowParseTypeParameterInstantiation();
    } else {
      node.typeParameters = null;
    }
    return this.finishNode(node, "InterfaceExtends");
  }
  flowParseInterface(node) {
    this.flowParseInterfaceish(node, false);
    return this.finishNode(node, "InterfaceDeclaration");
  }
  checkNotUnderscore(word) {
    if (word === "_") {
      this.raise(FlowErrors.UnexpectedReservedUnderscore, {
        at: this.state.startLoc
      });
    }
  }
  checkReservedType(word, startLoc, declaration) {
    if (!reservedTypes.has(word)) return;
    this.raise(declaration ? FlowErrors.AssignReservedType : FlowErrors.UnexpectedReservedType, {
      at: startLoc,
      reservedType: word
    });
  }
  flowParseRestrictedIdentifier(liberal, declaration) {
    this.checkReservedType(this.state.value, this.state.startLoc, declaration);
    return this.parseIdentifier(liberal);
  }
  flowParseTypeAlias(node) {
    node.id = this.flowParseRestrictedIdentifier(false, true);
    this.scope.declareName(node.id.name, BIND_LEXICAL, node.id.loc.start);
    if (this.match(47)) {
      node.typeParameters = this.flowParseTypeParameterDeclaration();
    } else {
      node.typeParameters = null;
    }
    node.right = this.flowParseTypeInitialiser(29);
    this.semicolon();
    return this.finishNode(node, "TypeAlias");
  }
  flowParseOpaqueType(node, declare) {
    this.expectContextual(128);
    node.id = this.flowParseRestrictedIdentifier(true, true);
    this.scope.declareName(node.id.name, BIND_LEXICAL, node.id.loc.start);
    if (this.match(47)) {
      node.typeParameters = this.flowParseTypeParameterDeclaration();
    } else {
      node.typeParameters = null;
    }
    node.supertype = null;
    if (this.match(14)) {
      node.supertype = this.flowParseTypeInitialiser(14);
    }
    node.impltype = null;
    if (!declare) {
      node.impltype = this.flowParseTypeInitialiser(29);
    }
    this.semicolon();
    return this.finishNode(node, "OpaqueType");
  }
  flowParseTypeParameter(requireDefault = false) {
    const nodeStartLoc = this.state.startLoc;
    const node = this.startNode();
    const variance = this.flowParseVariance();
    const ident = this.flowParseTypeAnnotatableIdentifier();
    node.name = ident.name;
    node.variance = variance;
    node.bound = ident.typeAnnotation;
    if (this.match(29)) {
      this.eat(29);
      node.default = this.flowParseType();
    } else {
      if (requireDefault) {
        this.raise(FlowErrors.MissingTypeParamDefault, {
          at: nodeStartLoc
        });
      }
    }
    return this.finishNode(node, "TypeParameter");
  }
  flowParseTypeParameterDeclaration() {
    const oldInType = this.state.inType;
    const node = this.startNode();
    node.params = [];
    this.state.inType = true;
    if (this.match(47) || this.match(140)) {
      this.next();
    } else {
      this.unexpected();
    }
    let defaultRequired = false;
    do {
      const typeParameter = this.flowParseTypeParameter(defaultRequired);
      node.params.push(typeParameter);
      if (typeParameter.default) {
        defaultRequired = true;
      }
      if (!this.match(48)) {
        this.expect(12);
      }
    } while (!this.match(48));
    this.expect(48);
    this.state.inType = oldInType;
    return this.finishNode(node, "TypeParameterDeclaration");
  }
  flowParseTypeParameterInstantiation() {
    const node = this.startNode();
    const oldInType = this.state.inType;
    node.params = [];
    this.state.inType = true;
    this.expect(47);
    const oldNoAnonFunctionType = this.state.noAnonFunctionType;
    this.state.noAnonFunctionType = false;
    while (!this.match(48)) {
      node.params.push(this.flowParseType());
      if (!this.match(48)) {
        this.expect(12);
      }
    }
    this.state.noAnonFunctionType = oldNoAnonFunctionType;
    this.expect(48);
    this.state.inType = oldInType;
    return this.finishNode(node, "TypeParameterInstantiation");
  }
  flowParseTypeParameterInstantiationCallOrNew() {
    const node = this.startNode();
    const oldInType = this.state.inType;
    node.params = [];
    this.state.inType = true;
    this.expect(47);
    while (!this.match(48)) {
      node.params.push(this.flowParseTypeOrImplicitInstantiation());
      if (!this.match(48)) {
        this.expect(12);
      }
    }
    this.expect(48);
    this.state.inType = oldInType;
    return this.finishNode(node, "TypeParameterInstantiation");
  }
  flowParseInterfaceType() {
    const node = this.startNode();
    this.expectContextual(127);
    node.extends = [];
    if (this.eat(81)) {
      do {
        node.extends.push(this.flowParseInterfaceExtends());
      } while (this.eat(12));
    }
    node.body = this.flowParseObjectType({
      allowStatic: false,
      allowExact: false,
      allowSpread: false,
      allowProto: false,
      allowInexact: false
    });
    return this.finishNode(node, "InterfaceTypeAnnotation");
  }
  flowParseObjectPropertyKey() {
    return this.match(132) || this.match(131) ? super.parseExprAtom() : this.parseIdentifier(true);
  }
  flowParseObjectTypeIndexer(node, isStatic, variance) {
    node.static = isStatic;
    if (this.lookahead().type === 14) {
      node.id = this.flowParseObjectPropertyKey();
      node.key = this.flowParseTypeInitialiser();
    } else {
      node.id = null;
      node.key = this.flowParseType();
    }
    this.expect(3);
    node.value = this.flowParseTypeInitialiser();
    node.variance = variance;
    return this.finishNode(node, "ObjectTypeIndexer");
  }
  flowParseObjectTypeInternalSlot(node, isStatic) {
    node.static = isStatic;
    node.id = this.flowParseObjectPropertyKey();
    this.expect(3);
    this.expect(3);
    if (this.match(47) || this.match(10)) {
      node.method = true;
      node.optional = false;
      node.value = this.flowParseObjectTypeMethodish(this.startNodeAt(node.loc.start));
    } else {
      node.method = false;
      if (this.eat(17)) {
        node.optional = true;
      }
      node.value = this.flowParseTypeInitialiser();
    }
    return this.finishNode(node, "ObjectTypeInternalSlot");
  }
  flowParseObjectTypeMethodish(node) {
    node.params = [];
    node.rest = null;
    node.typeParameters = null;
    node.this = null;
    if (this.match(47)) {
      node.typeParameters = this.flowParseTypeParameterDeclaration();
    }
    this.expect(10);
    if (this.match(78)) {
      node.this = this.flowParseFunctionTypeParam(true);
      node.this.name = null;
      if (!this.match(11)) {
        this.expect(12);
      }
    }
    while (!this.match(11) && !this.match(21)) {
      node.params.push(this.flowParseFunctionTypeParam(false));
      if (!this.match(11)) {
        this.expect(12);
      }
    }
    if (this.eat(21)) {
      node.rest = this.flowParseFunctionTypeParam(false);
    }
    this.expect(11);
    node.returnType = this.flowParseTypeInitialiser();
    return this.finishNode(node, "FunctionTypeAnnotation");
  }
  flowParseObjectTypeCallProperty(node, isStatic) {
    const valueNode = this.startNode();
    node.static = isStatic;
    node.value = this.flowParseObjectTypeMethodish(valueNode);
    return this.finishNode(node, "ObjectTypeCallProperty");
  }
  flowParseObjectType({
    allowStatic,
    allowExact,
    allowSpread,
    allowProto,
    allowInexact
  }) {
    const oldInType = this.state.inType;
    this.state.inType = true;
    const nodeStart = this.startNode();
    nodeStart.callProperties = [];
    nodeStart.properties = [];
    nodeStart.indexers = [];
    nodeStart.internalSlots = [];
    let endDelim;
    let exact;
    let inexact = false;
    if (allowExact && this.match(6)) {
      this.expect(6);
      endDelim = 9;
      exact = true;
    } else {
      this.expect(5);
      endDelim = 8;
      exact = false;
    }
    nodeStart.exact = exact;
    while (!this.match(endDelim)) {
      let isStatic = false;
      let protoStartLoc = null;
      let inexactStartLoc = null;
      const node = this.startNode();
      if (allowProto && this.isContextual(116)) {
        const lookahead = this.lookahead();
        if (lookahead.type !== 14 && lookahead.type !== 17) {
          this.next();
          protoStartLoc = this.state.startLoc;
          allowStatic = false;
        }
      }
      if (allowStatic && this.isContextual(104)) {
        const lookahead = this.lookahead();
        if (lookahead.type !== 14 && lookahead.type !== 17) {
          this.next();
          isStatic = true;
        }
      }
      const variance = this.flowParseVariance();
      if (this.eat(0)) {
        if (protoStartLoc != null) {
          this.unexpected(protoStartLoc);
        }
        if (this.eat(0)) {
          if (variance) {
            this.unexpected(variance.loc.start);
          }
          nodeStart.internalSlots.push(this.flowParseObjectTypeInternalSlot(node, isStatic));
        } else {
          nodeStart.indexers.push(this.flowParseObjectTypeIndexer(node, isStatic, variance));
        }
      } else if (this.match(10) || this.match(47)) {
        if (protoStartLoc != null) {
          this.unexpected(protoStartLoc);
        }
        if (variance) {
          this.unexpected(variance.loc.start);
        }
        nodeStart.callProperties.push(this.flowParseObjectTypeCallProperty(node, isStatic));
      } else {
        let kind = "init";
        if (this.isContextual(98) || this.isContextual(103)) {
          const lookahead = this.lookahead();
          if (tokenIsLiteralPropertyName(lookahead.type)) {
            kind = this.state.value;
            this.next();
          }
        }
        const propOrInexact = this.flowParseObjectTypeProperty(node, isStatic, protoStartLoc, variance, kind, allowSpread, allowInexact != null ? allowInexact : !exact);
        if (propOrInexact === null) {
          inexact = true;
          inexactStartLoc = this.state.lastTokStartLoc;
        } else {
          nodeStart.properties.push(propOrInexact);
        }
      }
      this.flowObjectTypeSemicolon();
      if (inexactStartLoc && !this.match(8) && !this.match(9)) {
        this.raise(FlowErrors.UnexpectedExplicitInexactInObject, {
          at: inexactStartLoc
        });
      }
    }
    this.expect(endDelim);
    if (allowSpread) {
      nodeStart.inexact = inexact;
    }
    const out = this.finishNode(nodeStart, "ObjectTypeAnnotation");
    this.state.inType = oldInType;
    return out;
  }
  flowParseObjectTypeProperty(node, isStatic, protoStartLoc, variance, kind, allowSpread, allowInexact) {
    if (this.eat(21)) {
      const isInexactToken = this.match(12) || this.match(13) || this.match(8) || this.match(9);
      if (isInexactToken) {
        if (!allowSpread) {
          this.raise(FlowErrors.InexactInsideNonObject, {
            at: this.state.lastTokStartLoc
          });
        } else if (!allowInexact) {
          this.raise(FlowErrors.InexactInsideExact, {
            at: this.state.lastTokStartLoc
          });
        }
        if (variance) {
          this.raise(FlowErrors.InexactVariance, {
            at: variance
          });
        }
        return null;
      }
      if (!allowSpread) {
        this.raise(FlowErrors.UnexpectedSpreadType, {
          at: this.state.lastTokStartLoc
        });
      }
      if (protoStartLoc != null) {
        this.unexpected(protoStartLoc);
      }
      if (variance) {
        this.raise(FlowErrors.SpreadVariance, {
          at: variance
        });
      }
      node.argument = this.flowParseType();
      return this.finishNode(node, "ObjectTypeSpreadProperty");
    } else {
      node.key = this.flowParseObjectPropertyKey();
      node.static = isStatic;
      node.proto = protoStartLoc != null;
      node.kind = kind;
      let optional = false;
      if (this.match(47) || this.match(10)) {
        node.method = true;
        if (protoStartLoc != null) {
          this.unexpected(protoStartLoc);
        }
        if (variance) {
          this.unexpected(variance.loc.start);
        }
        node.value = this.flowParseObjectTypeMethodish(this.startNodeAt(node.loc.start));
        if (kind === "get" || kind === "set") {
          this.flowCheckGetterSetterParams(node);
        }
        if (!allowSpread && node.key.name === "constructor" && node.value.this) {
          this.raise(FlowErrors.ThisParamBannedInConstructor, {
            at: node.value.this
          });
        }
      } else {
        if (kind !== "init") this.unexpected();
        node.method = false;
        if (this.eat(17)) {
          optional = true;
        }
        node.value = this.flowParseTypeInitialiser();
        node.variance = variance;
      }
      node.optional = optional;
      return this.finishNode(node, "ObjectTypeProperty");
    }
  }
  flowCheckGetterSetterParams(property) {
    const paramCount = property.kind === "get" ? 0 : 1;
    const length = property.value.params.length + (property.value.rest ? 1 : 0);
    if (property.value.this) {
      this.raise(property.kind === "get" ? FlowErrors.GetterMayNotHaveThisParam : FlowErrors.SetterMayNotHaveThisParam, {
        at: property.value.this
      });
    }
    if (length !== paramCount) {
      this.raise(property.kind === "get" ? Errors.BadGetterArity : Errors.BadSetterArity, {
        at: property
      });
    }
    if (property.kind === "set" && property.value.rest) {
      this.raise(Errors.BadSetterRestParameter, {
        at: property
      });
    }
  }
  flowObjectTypeSemicolon() {
    if (!this.eat(13) && !this.eat(12) && !this.match(8) && !this.match(9)) {
      this.unexpected();
    }
  }
  flowParseQualifiedTypeIdentifier(startLoc, id) {
    var _startLoc;
    (_startLoc = startLoc) != null ? _startLoc : startLoc = this.state.startLoc;
    let node = id || this.flowParseRestrictedIdentifier(true);
    while (this.eat(16)) {
      const node2 = this.startNodeAt(startLoc);
      node2.qualification = node;
      node2.id = this.flowParseRestrictedIdentifier(true);
      node = this.finishNode(node2, "QualifiedTypeIdentifier");
    }
    return node;
  }
  flowParseGenericType(startLoc, id) {
    const node = this.startNodeAt(startLoc);
    node.typeParameters = null;
    node.id = this.flowParseQualifiedTypeIdentifier(startLoc, id);
    if (this.match(47)) {
      node.typeParameters = this.flowParseTypeParameterInstantiation();
    }
    return this.finishNode(node, "GenericTypeAnnotation");
  }
  flowParseTypeofType() {
    const node = this.startNode();
    this.expect(87);
    node.argument = this.flowParsePrimaryType();
    return this.finishNode(node, "TypeofTypeAnnotation");
  }
  flowParseTupleType() {
    const node = this.startNode();
    node.types = [];
    this.expect(0);
    while (this.state.pos < this.length && !this.match(3)) {
      node.types.push(this.flowParseType());
      if (this.match(3)) break;
      this.expect(12);
    }
    this.expect(3);
    return this.finishNode(node, "TupleTypeAnnotation");
  }
  flowParseFunctionTypeParam(first) {
    let name = null;
    let optional = false;
    let typeAnnotation = null;
    const node = this.startNode();
    const lh = this.lookahead();
    const isThis = this.state.type === 78;
    if (lh.type === 14 || lh.type === 17) {
      if (isThis && !first) {
        this.raise(FlowErrors.ThisParamMustBeFirst, {
          at: node
        });
      }
      name = this.parseIdentifier(isThis);
      if (this.eat(17)) {
        optional = true;
        if (isThis) {
          this.raise(FlowErrors.ThisParamMayNotBeOptional, {
            at: node
          });
        }
      }
      typeAnnotation = this.flowParseTypeInitialiser();
    } else {
      typeAnnotation = this.flowParseType();
    }
    node.name = name;
    node.optional = optional;
    node.typeAnnotation = typeAnnotation;
    return this.finishNode(node, "FunctionTypeParam");
  }
  reinterpretTypeAsFunctionTypeParam(type) {
    const node = this.startNodeAt(type.loc.start);
    node.name = null;
    node.optional = false;
    node.typeAnnotation = type;
    return this.finishNode(node, "FunctionTypeParam");
  }
  flowParseFunctionTypeParams(params = []) {
    let rest = null;
    let _this = null;
    if (this.match(78)) {
      _this = this.flowParseFunctionTypeParam(true);
      _this.name = null;
      if (!this.match(11)) {
        this.expect(12);
      }
    }
    while (!this.match(11) && !this.match(21)) {
      params.push(this.flowParseFunctionTypeParam(false));
      if (!this.match(11)) {
        this.expect(12);
      }
    }
    if (this.eat(21)) {
      rest = this.flowParseFunctionTypeParam(false);
    }
    return {
      params,
      rest,
      _this
    };
  }
  flowIdentToTypeAnnotation(startLoc, node, id) {
    switch (id.name) {
      case "any":
        return this.finishNode(node, "AnyTypeAnnotation");
      case "bool":
      case "boolean":
        return this.finishNode(node, "BooleanTypeAnnotation");
      case "mixed":
        return this.finishNode(node, "MixedTypeAnnotation");
      case "empty":
        return this.finishNode(node, "EmptyTypeAnnotation");
      case "number":
        return this.finishNode(node, "NumberTypeAnnotation");
      case "string":
        return this.finishNode(node, "StringTypeAnnotation");
      case "symbol":
        return this.finishNode(node, "SymbolTypeAnnotation");
      default:
        this.checkNotUnderscore(id.name);
        return this.flowParseGenericType(startLoc, id);
    }
  }
  flowParsePrimaryType() {
    const startLoc = this.state.startLoc;
    const node = this.startNode();
    let tmp;
    let type;
    let isGroupedType = false;
    const oldNoAnonFunctionType = this.state.noAnonFunctionType;
    switch (this.state.type) {
      case 5:
        return this.flowParseObjectType({
          allowStatic: false,
          allowExact: false,
          allowSpread: true,
          allowProto: false,
          allowInexact: true
        });
      case 6:
        return this.flowParseObjectType({
          allowStatic: false,
          allowExact: true,
          allowSpread: true,
          allowProto: false,
          allowInexact: false
        });
      case 0:
        this.state.noAnonFunctionType = false;
        type = this.flowParseTupleType();
        this.state.noAnonFunctionType = oldNoAnonFunctionType;
        return type;
      case 47:
        node.typeParameters = this.flowParseTypeParameterDeclaration();
        this.expect(10);
        tmp = this.flowParseFunctionTypeParams();
        node.params = tmp.params;
        node.rest = tmp.rest;
        node.this = tmp._this;
        this.expect(11);
        this.expect(19);
        node.returnType = this.flowParseType();
        return this.finishNode(node, "FunctionTypeAnnotation");
      case 10:
        this.next();
        if (!this.match(11) && !this.match(21)) {
          if (tokenIsIdentifier(this.state.type) || this.match(78)) {
            const token = this.lookahead().type;
            isGroupedType = token !== 17 && token !== 14;
          } else {
            isGroupedType = true;
          }
        }
        if (isGroupedType) {
          this.state.noAnonFunctionType = false;
          type = this.flowParseType();
          this.state.noAnonFunctionType = oldNoAnonFunctionType;
          if (this.state.noAnonFunctionType || !(this.match(12) || this.match(11) && this.lookahead().type === 19)) {
            this.expect(11);
            return type;
          } else {
            this.eat(12);
          }
        }
        if (type) {
          tmp = this.flowParseFunctionTypeParams([this.reinterpretTypeAsFunctionTypeParam(type)]);
        } else {
          tmp = this.flowParseFunctionTypeParams();
        }
        node.params = tmp.params;
        node.rest = tmp.rest;
        node.this = tmp._this;
        this.expect(11);
        this.expect(19);
        node.returnType = this.flowParseType();
        node.typeParameters = null;
        return this.finishNode(node, "FunctionTypeAnnotation");
      case 131:
        return this.parseLiteral(this.state.value, "StringLiteralTypeAnnotation");
      case 85:
      case 86:
        node.value = this.match(85);
        this.next();
        return this.finishNode(node, "BooleanLiteralTypeAnnotation");
      case 53:
        if (this.state.value === "-") {
          this.next();
          if (this.match(132)) {
            return this.parseLiteralAtNode(-this.state.value, "NumberLiteralTypeAnnotation", node);
          }
          if (this.match(133)) {
            return this.parseLiteralAtNode(-this.state.value, "BigIntLiteralTypeAnnotation", node);
          }
          throw this.raise(FlowErrors.UnexpectedSubtractionOperand, {
            at: this.state.startLoc
          });
        }
        this.unexpected();
        return;
      case 132:
        return this.parseLiteral(this.state.value, "NumberLiteralTypeAnnotation");
      case 133:
        return this.parseLiteral(this.state.value, "BigIntLiteralTypeAnnotation");
      case 88:
        this.next();
        return this.finishNode(node, "VoidTypeAnnotation");
      case 84:
        this.next();
        return this.finishNode(node, "NullLiteralTypeAnnotation");
      case 78:
        this.next();
        return this.finishNode(node, "ThisTypeAnnotation");
      case 55:
        this.next();
        return this.finishNode(node, "ExistsTypeAnnotation");
      case 87:
        return this.flowParseTypeofType();
      default:
        if (tokenIsKeyword(this.state.type)) {
          const label = tokenLabelName(this.state.type);
          this.next();
          return super.createIdentifier(node, label);
        } else if (tokenIsIdentifier(this.state.type)) {
          if (this.isContextual(127)) {
            return this.flowParseInterfaceType();
          }
          return this.flowIdentToTypeAnnotation(startLoc, node, this.parseIdentifier());
        }
    }
    this.unexpected();
  }
  flowParsePostfixType() {
    const startLoc = this.state.startLoc;
    let type = this.flowParsePrimaryType();
    let seenOptionalIndexedAccess = false;
    while ((this.match(0) || this.match(18)) && !this.canInsertSemicolon()) {
      const node = this.startNodeAt(startLoc);
      const optional = this.eat(18);
      seenOptionalIndexedAccess = seenOptionalIndexedAccess || optional;
      this.expect(0);
      if (!optional && this.match(3)) {
        node.elementType = type;
        this.next();
        type = this.finishNode(node, "ArrayTypeAnnotation");
      } else {
        node.objectType = type;
        node.indexType = this.flowParseType();
        this.expect(3);
        if (seenOptionalIndexedAccess) {
          node.optional = optional;
          type = this.finishNode(node, "OptionalIndexedAccessType");
        } else {
          type = this.finishNode(node, "IndexedAccessType");
        }
      }
    }
    return type;
  }
  flowParsePrefixType() {
    const node = this.startNode();
    if (this.eat(17)) {
      node.typeAnnotation = this.flowParsePrefixType();
      return this.finishNode(node, "NullableTypeAnnotation");
    } else {
      return this.flowParsePostfixType();
    }
  }
  flowParseAnonFunctionWithoutParens() {
    const param = this.flowParsePrefixType();
    if (!this.state.noAnonFunctionType && this.eat(19)) {
      const node = this.startNodeAt(param.loc.start);
      node.params = [this.reinterpretTypeAsFunctionTypeParam(param)];
      node.rest = null;
      node.this = null;
      node.returnType = this.flowParseType();
      node.typeParameters = null;
      return this.finishNode(node, "FunctionTypeAnnotation");
    }
    return param;
  }
  flowParseIntersectionType() {
    const node = this.startNode();
    this.eat(45);
    const type = this.flowParseAnonFunctionWithoutParens();
    node.types = [type];
    while (this.eat(45)) {
      node.types.push(this.flowParseAnonFunctionWithoutParens());
    }
    return node.types.length === 1 ? type : this.finishNode(node, "IntersectionTypeAnnotation");
  }
  flowParseUnionType() {
    const node = this.startNode();
    this.eat(43);
    const type = this.flowParseIntersectionType();
    node.types = [type];
    while (this.eat(43)) {
      node.types.push(this.flowParseIntersectionType());
    }
    return node.types.length === 1 ? type : this.finishNode(node, "UnionTypeAnnotation");
  }
  flowParseType() {
    const oldInType = this.state.inType;
    this.state.inType = true;
    const type = this.flowParseUnionType();
    this.state.inType = oldInType;
    return type;
  }
  flowParseTypeOrImplicitInstantiation() {
    if (this.state.type === 130 && this.state.value === "_") {
      const startLoc = this.state.startLoc;
      const node = this.parseIdentifier();
      return this.flowParseGenericType(startLoc, node);
    } else {
      return this.flowParseType();
    }
  }
  flowParseTypeAnnotation() {
    const node = this.startNode();
    node.typeAnnotation = this.flowParseTypeInitialiser();
    return this.finishNode(node, "TypeAnnotation");
  }
  flowParseTypeAnnotatableIdentifier(allowPrimitiveOverride) {
    const ident = allowPrimitiveOverride ? this.parseIdentifier() : this.flowParseRestrictedIdentifier();
    if (this.match(14)) {
      ident.typeAnnotation = this.flowParseTypeAnnotation();
      this.resetEndLocation(ident);
    }
    return ident;
  }
  typeCastToParameter(node) {
    node.expression.typeAnnotation = node.typeAnnotation;
    this.resetEndLocation(node.expression, node.typeAnnotation.loc.end);
    return node.expression;
  }
  flowParseVariance() {
    let variance = null;
    if (this.match(53)) {
      variance = this.startNode();
      if (this.state.value === "+") {
        variance.kind = "plus";
      } else {
        variance.kind = "minus";
      }
      this.next();
      return this.finishNode(variance, "Variance");
    }
    return variance;
  }
  parseFunctionBody(node, allowExpressionBody, isMethod = false) {
    if (allowExpressionBody) {
      this.forwardNoArrowParamsConversionAt(node, () => super.parseFunctionBody(node, true, isMethod));
      return;
    }
    super.parseFunctionBody(node, false, isMethod);
  }
  parseFunctionBodyAndFinish(node, type, isMethod = false) {
    if (this.match(14)) {
      const typeNode = this.startNode();
      [typeNode.typeAnnotation, node.predicate] = this.flowParseTypeAndPredicateInitialiser();
      node.returnType = typeNode.typeAnnotation ? this.finishNode(typeNode, "TypeAnnotation") : null;
    }
    return super.parseFunctionBodyAndFinish(node, type, isMethod);
  }
  parseStatementLike(flags) {
    if (this.state.strict && this.isContextual(127)) {
      const lookahead = this.lookahead();
      if (tokenIsKeywordOrIdentifier(lookahead.type)) {
        const node = this.startNode();
        this.next();
        return this.flowParseInterface(node);
      }
    } else if (this.shouldParseEnums() && this.isContextual(124)) {
      const node = this.startNode();
      this.next();
      return this.flowParseEnumDeclaration(node);
    }
    const stmt = super.parseStatementLike(flags);
    if (this.flowPragma === undefined && !this.isValidDirective(stmt)) {
      this.flowPragma = null;
    }
    return stmt;
  }
  parseExpressionStatement(node, expr, decorators) {
    if (expr.type === "Identifier") {
      if (expr.name === "declare") {
        if (this.match(80) || tokenIsIdentifier(this.state.type) || this.match(68) || this.match(74) || this.match(82)) {
          return this.flowParseDeclare(node);
        }
      } else if (tokenIsIdentifier(this.state.type)) {
        if (expr.name === "interface") {
          return this.flowParseInterface(node);
        } else if (expr.name === "type") {
          return this.flowParseTypeAlias(node);
        } else if (expr.name === "opaque") {
          return this.flowParseOpaqueType(node, false);
        }
      }
    }
    return super.parseExpressionStatement(node, expr, decorators);
  }
  shouldParseExportDeclaration() {
    const {
      type
    } = this.state;
    if (tokenIsFlowInterfaceOrTypeOrOpaque(type) || this.shouldParseEnums() && type === 124) {
      return !this.state.containsEsc;
    }
    return super.shouldParseExportDeclaration();
  }
  isExportDefaultSpecifier() {
    const {
      type
    } = this.state;
    if (tokenIsFlowInterfaceOrTypeOrOpaque(type) || this.shouldParseEnums() && type === 124) {
      return this.state.containsEsc;
    }
    return super.isExportDefaultSpecifier();
  }
  parseExportDefaultExpression() {
    if (this.shouldParseEnums() && this.isContextual(124)) {
      const node = this.startNode();
      this.next();
      return this.flowParseEnumDeclaration(node);
    }
    return super.parseExportDefaultExpression();
  }
  parseConditional(expr, startLoc, refExpressionErrors) {
    if (!this.match(17)) return expr;
    if (this.state.maybeInArrowParameters) {
      const nextCh = this.lookaheadCharCode();
      if (nextCh === 44 || nextCh === 61 || nextCh === 58 || nextCh === 41) {
        this.setOptionalParametersError(refExpressionErrors);
        return expr;
      }
    }
    this.expect(17);
    const state = this.state.clone();
    const originalNoArrowAt = this.state.noArrowAt;
    const node = this.startNodeAt(startLoc);
    let {
      consequent,
      failed
    } = this.tryParseConditionalConsequent();
    let [valid, invalid] = this.getArrowLikeExpressions(consequent);
    if (failed || invalid.length > 0) {
      const noArrowAt = [...originalNoArrowAt];
      if (invalid.length > 0) {
        this.state = state;
        this.state.noArrowAt = noArrowAt;
        for (let i = 0; i < invalid.length; i++) {
          noArrowAt.push(invalid[i].start);
        }
        ({
          consequent,
          failed
        } = this.tryParseConditionalConsequent());
        [valid, invalid] = this.getArrowLikeExpressions(consequent);
      }
      if (failed && valid.length > 1) {
        this.raise(FlowErrors.AmbiguousConditionalArrow, {
          at: state.startLoc
        });
      }
      if (failed && valid.length === 1) {
        this.state = state;
        noArrowAt.push(valid[0].start);
        this.state.noArrowAt = noArrowAt;
        ({
          consequent,
          failed
        } = this.tryParseConditionalConsequent());
      }
    }
    this.getArrowLikeExpressions(consequent, true);
    this.state.noArrowAt = originalNoArrowAt;
    this.expect(14);
    node.test = expr;
    node.consequent = consequent;
    node.alternate = this.forwardNoArrowParamsConversionAt(node, () => this.parseMaybeAssign(undefined, undefined));
    return this.finishNode(node, "ConditionalExpression");
  }
  tryParseConditionalConsequent() {
    this.state.noArrowParamsConversionAt.push(this.state.start);
    const consequent = this.parseMaybeAssignAllowIn();
    const failed = !this.match(14);
    this.state.noArrowParamsConversionAt.pop();
    return {
      consequent,
      failed
    };
  }
  getArrowLikeExpressions(node, disallowInvalid) {
    const stack = [node];
    const arrows = [];
    while (stack.length !== 0) {
      const node = stack.pop();
      if (node.type === "ArrowFunctionExpression") {
        if (node.typeParameters || !node.returnType) {
          this.finishArrowValidation(node);
        } else {
          arrows.push(node);
        }
        stack.push(node.body);
      } else if (node.type === "ConditionalExpression") {
        stack.push(node.consequent);
        stack.push(node.alternate);
      }
    }
    if (disallowInvalid) {
      arrows.forEach(node => this.finishArrowValidation(node));
      return [arrows, []];
    }
    return partition(arrows, node => node.params.every(param => this.isAssignable(param, true)));
  }
  finishArrowValidation(node) {
    var _node$extra;
    this.toAssignableList(node.params, (_node$extra = node.extra) == null ? void 0 : _node$extra.trailingCommaLoc, false);
    this.scope.enter(SCOPE_FUNCTION | SCOPE_ARROW);
    super.checkParams(node, false, true);
    this.scope.exit();
  }
  forwardNoArrowParamsConversionAt(node, parse) {
    let result;
    if (this.state.noArrowParamsConversionAt.indexOf(node.start) !== -1) {
      this.state.noArrowParamsConversionAt.push(this.state.start);
      result = parse();
      this.state.noArrowParamsConversionAt.pop();
    } else {
      result = parse();
    }
    return result;
  }
  parseParenItem(node, startLoc) {
    node = super.parseParenItem(node, startLoc);
    if (this.eat(17)) {
      node.optional = true;
      this.resetEndLocation(node);
    }
    if (this.match(14)) {
      const typeCastNode = this.startNodeAt(startLoc);
      typeCastNode.expression = node;
      typeCastNode.typeAnnotation = this.flowParseTypeAnnotation();
      return this.finishNode(typeCastNode, "TypeCastExpression");
    }
    return node;
  }
  assertModuleNodeAllowed(node) {
    if (node.type === "ImportDeclaration" && (node.importKind === "type" || node.importKind === "typeof") || node.type === "ExportNamedDeclaration" && node.exportKind === "type" || node.type === "ExportAllDeclaration" && node.exportKind === "type") {
      return;
    }
    super.assertModuleNodeAllowed(node);
  }
  parseExport(node, decorators) {
    const decl = super.parseExport(node, decorators);
    if (decl.type === "ExportNamedDeclaration" || decl.type === "ExportAllDeclaration") {
      decl.exportKind = decl.exportKind || "value";
    }
    return decl;
  }
  parseExportDeclaration(node) {
    if (this.isContextual(128)) {
      node.exportKind = "type";
      const declarationNode = this.startNode();
      this.next();
      if (this.match(5)) {
        node.specifiers = this.parseExportSpecifiers(true);
        super.parseExportFrom(node);
        return null;
      } else {
        return this.flowParseTypeAlias(declarationNode);
      }
    } else if (this.isContextual(129)) {
      node.exportKind = "type";
      const declarationNode = this.startNode();
      this.next();
      return this.flowParseOpaqueType(declarationNode, false);
    } else if (this.isContextual(127)) {
      node.exportKind = "type";
      const declarationNode = this.startNode();
      this.next();
      return this.flowParseInterface(declarationNode);
    } else if (this.shouldParseEnums() && this.isContextual(124)) {
      node.exportKind = "value";
      const declarationNode = this.startNode();
      this.next();
      return this.flowParseEnumDeclaration(declarationNode);
    } else {
      return super.parseExportDeclaration(node);
    }
  }
  eatExportStar(node) {
    if (super.eatExportStar(node)) return true;
    if (this.isContextual(128) && this.lookahead().type === 55) {
      node.exportKind = "type";
      this.next();
      this.next();
      return true;
    }
    return false;
  }
  maybeParseExportNamespaceSpecifier(node) {
    const {
      startLoc
    } = this.state;
    const hasNamespace = super.maybeParseExportNamespaceSpecifier(node);
    if (hasNamespace && node.exportKind === "type") {
      this.unexpected(startLoc);
    }
    return hasNamespace;
  }
  parseClassId(node, isStatement, optionalId) {
    super.parseClassId(node, isStatement, optionalId);
    if (this.match(47)) {
      node.typeParameters = this.flowParseTypeParameterDeclaration();
    }
  }
  parseClassMember(classBody, member, state) {
    const {
      startLoc
    } = this.state;
    if (this.isContextual(123)) {
      if (super.parseClassMemberFromModifier(classBody, member)) {
        return;
      }
      member.declare = true;
    }
    super.parseClassMember(classBody, member, state);
    if (member.declare) {
      if (member.type !== "ClassProperty" && member.type !== "ClassPrivateProperty" && member.type !== "PropertyDefinition") {
        this.raise(FlowErrors.DeclareClassElement, {
          at: startLoc
        });
      } else if (member.value) {
        this.raise(FlowErrors.DeclareClassFieldInitializer, {
          at: member.value
        });
      }
    }
  }
  isIterator(word) {
    return word === "iterator" || word === "asyncIterator";
  }
  readIterator() {
    const word = super.readWord1();
    const fullWord = "@@" + word;
    if (!this.isIterator(word) || !this.state.inType) {
      this.raise(Errors.InvalidIdentifier, {
        at: this.state.curPosition(),
        identifierName: fullWord
      });
    }
    this.finishToken(130, fullWord);
  }
  getTokenFromCode(code) {
    const next = this.input.charCodeAt(this.state.pos + 1);
    if (code === 123 && next === 124) {
      this.finishOp(6, 2);
    } else if (this.state.inType && (code === 62 || code === 60)) {
      this.finishOp(code === 62 ? 48 : 47, 1);
    } else if (this.state.inType && code === 63) {
      if (next === 46) {
        this.finishOp(18, 2);
      } else {
        this.finishOp(17, 1);
      }
    } else if (isIteratorStart(code, next, this.input.charCodeAt(this.state.pos + 2))) {
      this.state.pos += 2;
      this.readIterator();
    } else {
      super.getTokenFromCode(code);
    }
  }
  isAssignable(node, isBinding) {
    if (node.type === "TypeCastExpression") {
      return this.isAssignable(node.expression, isBinding);
    } else {
      return super.isAssignable(node, isBinding);
    }
  }
  toAssignable(node, isLHS = false) {
    if (!isLHS && node.type === "AssignmentExpression" && node.left.type === "TypeCastExpression") {
      node.left = this.typeCastToParameter(node.left);
    }
    super.toAssignable(node, isLHS);
  }
  toAssignableList(exprList, trailingCommaLoc, isLHS) {
    for (let i = 0; i < exprList.length; i++) {
      const expr = exprList[i];
      if ((expr == null ? void 0 : expr.type) === "TypeCastExpression") {
        exprList[i] = this.typeCastToParameter(expr);
      }
    }
    super.toAssignableList(exprList, trailingCommaLoc, isLHS);
  }
  toReferencedList(exprList, isParenthesizedExpr) {
    for (let i = 0; i < exprList.length; i++) {
      var _expr$extra;
      const expr = exprList[i];
      if (expr && expr.type === "TypeCastExpression" && !((_expr$extra = expr.extra) != null && _expr$extra.parenthesized) && (exprList.length > 1 || !isParenthesizedExpr)) {
        this.raise(FlowErrors.TypeCastInPattern, {
          at: expr.typeAnnotation
        });
      }
    }
    return exprList;
  }
  parseArrayLike(close, canBePattern, isTuple, refExpressionErrors) {
    const node = super.parseArrayLike(close, canBePattern, isTuple, refExpressionErrors);
    if (canBePattern && !this.state.maybeInArrowParameters) {
      this.toReferencedList(node.elements);
    }
    return node;
  }
  isValidLVal(type, isParenthesized, binding) {
    return type === "TypeCastExpression" || super.isValidLVal(type, isParenthesized, binding);
  }
  parseClassProperty(node) {
    if (this.match(14)) {
      node.typeAnnotation = this.flowParseTypeAnnotation();
    }
    return super.parseClassProperty(node);
  }
  parseClassPrivateProperty(node) {
    if (this.match(14)) {
      node.typeAnnotation = this.flowParseTypeAnnotation();
    }
    return super.parseClassPrivateProperty(node);
  }
  isClassMethod() {
    return this.match(47) || super.isClassMethod();
  }
  isClassProperty() {
    return this.match(14) || super.isClassProperty();
  }
  isNonstaticConstructor(method) {
    return !this.match(14) && super.isNonstaticConstructor(method);
  }
  pushClassMethod(classBody, method, isGenerator, isAsync, isConstructor, allowsDirectSuper) {
    if (method.variance) {
      this.unexpected(method.variance.loc.start);
    }
    delete method.variance;
    if (this.match(47)) {
      method.typeParameters = this.flowParseTypeParameterDeclaration();
    }
    super.pushClassMethod(classBody, method, isGenerator, isAsync, isConstructor, allowsDirectSuper);
    if (method.params && isConstructor) {
      const params = method.params;
      if (params.length > 0 && this.isThisParam(params[0])) {
        this.raise(FlowErrors.ThisParamBannedInConstructor, {
          at: method
        });
      }
    } else if (method.type === "MethodDefinition" && isConstructor && method.value.params) {
      const params = method.value.params;
      if (params.length > 0 && this.isThisParam(params[0])) {
        this.raise(FlowErrors.ThisParamBannedInConstructor, {
          at: method
        });
      }
    }
  }
  pushClassPrivateMethod(classBody, method, isGenerator, isAsync) {
    if (method.variance) {
      this.unexpected(method.variance.loc.start);
    }
    delete method.variance;
    if (this.match(47)) {
      method.typeParameters = this.flowParseTypeParameterDeclaration();
    }
    super.pushClassPrivateMethod(classBody, method, isGenerator, isAsync);
  }
  parseClassSuper(node) {
    super.parseClassSuper(node);
    if (node.superClass && this.match(47)) {
      node.superTypeParameters = this.flowParseTypeParameterInstantiation();
    }
    if (this.isContextual(111)) {
      this.next();
      const implemented = node.implements = [];
      do {
        const node = this.startNode();
        node.id = this.flowParseRestrictedIdentifier(true);
        if (this.match(47)) {
          node.typeParameters = this.flowParseTypeParameterInstantiation();
        } else {
          node.typeParameters = null;
        }
        implemented.push(this.finishNode(node, "ClassImplements"));
      } while (this.eat(12));
    }
  }
  checkGetterSetterParams(method) {
    super.checkGetterSetterParams(method);
    const params = this.getObjectOrClassMethodParams(method);
    if (params.length > 0) {
      const param = params[0];
      if (this.isThisParam(param) && method.kind === "get") {
        this.raise(FlowErrors.GetterMayNotHaveThisParam, {
          at: param
        });
      } else if (this.isThisParam(param)) {
        this.raise(FlowErrors.SetterMayNotHaveThisParam, {
          at: param
        });
      }
    }
  }
  parsePropertyNamePrefixOperator(node) {
    node.variance = this.flowParseVariance();
  }
  parseObjPropValue(prop, startLoc, isGenerator, isAsync, isPattern, isAccessor, refExpressionErrors) {
    if (prop.variance) {
      this.unexpected(prop.variance.loc.start);
    }
    delete prop.variance;
    let typeParameters;
    if (this.match(47) && !isAccessor) {
      typeParameters = this.flowParseTypeParameterDeclaration();
      if (!this.match(10)) this.unexpected();
    }
    const result = super.parseObjPropValue(prop, startLoc, isGenerator, isAsync, isPattern, isAccessor, refExpressionErrors);
    if (typeParameters) {
      (result.value || result).typeParameters = typeParameters;
    }
    return result;
  }
  parseAssignableListItemTypes(param) {
    if (this.eat(17)) {
      if (param.type !== "Identifier") {
        this.raise(FlowErrors.PatternIsOptional, {
          at: param
        });
      }
      if (this.isThisParam(param)) {
        this.raise(FlowErrors.ThisParamMayNotBeOptional, {
          at: param
        });
      }
      param.optional = true;
    }
    if (this.match(14)) {
      param.typeAnnotation = this.flowParseTypeAnnotation();
    } else if (this.isThisParam(param)) {
      this.raise(FlowErrors.ThisParamAnnotationRequired, {
        at: param
      });
    }
    if (this.match(29) && this.isThisParam(param)) {
      this.raise(FlowErrors.ThisParamNoDefault, {
        at: param
      });
    }
    this.resetEndLocation(param);
    return param;
  }
  parseMaybeDefault(startLoc, left) {
    const node = super.parseMaybeDefault(startLoc, left);
    if (node.type === "AssignmentPattern" && node.typeAnnotation && node.right.start < node.typeAnnotation.start) {
      this.raise(FlowErrors.TypeBeforeInitializer, {
        at: node.typeAnnotation
      });
    }
    return node;
  }
  shouldParseDefaultImport(node) {
    if (!hasTypeImportKind(node)) {
      return super.shouldParseDefaultImport(node);
    }
    return isMaybeDefaultImport(this.state.type);
  }
  checkImportReflection(node) {
    super.checkImportReflection(node);
    if (node.module && node.importKind !== "value") {
      this.raise(FlowErrors.ImportReflectionHasImportType, {
        at: node.specifiers[0].loc.start
      });
    }
  }
  parseImportSpecifierLocal(node, specifier, type) {
    specifier.local = hasTypeImportKind(node) ? this.flowParseRestrictedIdentifier(true, true) : this.parseIdentifier();
    node.specifiers.push(this.finishImportSpecifier(specifier, type));
  }
  maybeParseDefaultImportSpecifier(node) {
    node.importKind = "value";
    let kind = null;
    if (this.match(87)) {
      kind = "typeof";
    } else if (this.isContextual(128)) {
      kind = "type";
    }
    if (kind) {
      const lh = this.lookahead();
      const {
        type
      } = lh;
      if (kind === "type" && type === 55) {
        this.unexpected(null, lh.type);
      }
      if (isMaybeDefaultImport(type) || type === 5 || type === 55) {
        this.next();
        node.importKind = kind;
      }
    }
    return super.maybeParseDefaultImportSpecifier(node);
  }
  parseImportSpecifier(specifier, importedIsString, isInTypeOnlyImport, isMaybeTypeOnly, bindingType) {
    const firstIdent = specifier.imported;
    let specifierTypeKind = null;
    if (firstIdent.type === "Identifier") {
      if (firstIdent.name === "type") {
        specifierTypeKind = "type";
      } else if (firstIdent.name === "typeof") {
        specifierTypeKind = "typeof";
      }
    }
    let isBinding = false;
    if (this.isContextual(93) && !this.isLookaheadContextual("as")) {
      const as_ident = this.parseIdentifier(true);
      if (specifierTypeKind !== null && !tokenIsKeywordOrIdentifier(this.state.type)) {
        specifier.imported = as_ident;
        specifier.importKind = specifierTypeKind;
        specifier.local = cloneIdentifier(as_ident);
      } else {
        specifier.imported = firstIdent;
        specifier.importKind = null;
        specifier.local = this.parseIdentifier();
      }
    } else {
      if (specifierTypeKind !== null && tokenIsKeywordOrIdentifier(this.state.type)) {
        specifier.imported = this.parseIdentifier(true);
        specifier.importKind = specifierTypeKind;
      } else {
        if (importedIsString) {
          throw this.raise(Errors.ImportBindingIsString, {
            at: specifier,
            importName: firstIdent.value
          });
        }
        specifier.imported = firstIdent;
        specifier.importKind = null;
      }
      if (this.eatContextual(93)) {
        specifier.local = this.parseIdentifier();
      } else {
        isBinding = true;
        specifier.local = cloneIdentifier(specifier.imported);
      }
    }
    const specifierIsTypeImport = hasTypeImportKind(specifier);
    if (isInTypeOnlyImport && specifierIsTypeImport) {
      this.raise(FlowErrors.ImportTypeShorthandOnlyInPureImport, {
        at: specifier
      });
    }
    if (isInTypeOnlyImport || specifierIsTypeImport) {
      this.checkReservedType(specifier.local.name, specifier.local.loc.start, true);
    }
    if (isBinding && !isInTypeOnlyImport && !specifierIsTypeImport) {
      this.checkReservedWord(specifier.local.name, specifier.loc.start, true, true);
    }
    return this.finishImportSpecifier(specifier, "ImportSpecifier");
  }
  parseBindingAtom() {
    switch (this.state.type) {
      case 78:
        return this.parseIdentifier(true);
      default:
        return super.parseBindingAtom();
    }
  }
  parseFunctionParams(node, isConstructor) {
    const kind = node.kind;
    if (kind !== "get" && kind !== "set" && this.match(47)) {
      node.typeParameters = this.flowParseTypeParameterDeclaration();
    }
    super.parseFunctionParams(node, isConstructor);
  }
  parseVarId(decl, kind) {
    super.parseVarId(decl, kind);
    if (this.match(14)) {
      decl.id.typeAnnotation = this.flowParseTypeAnnotation();
      this.resetEndLocation(decl.id);
    }
  }
  parseAsyncArrowFromCallExpression(node, call) {
    if (this.match(14)) {
      const oldNoAnonFunctionType = this.state.noAnonFunctionType;
      this.state.noAnonFunctionType = true;
      node.returnType = this.flowParseTypeAnnotation();
      this.state.noAnonFunctionType = oldNoAnonFunctionType;
    }
    return super.parseAsyncArrowFromCallExpression(node, call);
  }
  shouldParseAsyncArrow() {
    return this.match(14) || super.shouldParseAsyncArrow();
  }
  parseMaybeAssign(refExpressionErrors, afterLeftParse) {
    var _jsx;
    let state = null;
    let jsx;
    if (this.hasPlugin("jsx") && (this.match(140) || this.match(47))) {
      state = this.state.clone();
      jsx = this.tryParse(() => super.parseMaybeAssign(refExpressionErrors, afterLeftParse), state);
      if (!jsx.error) return jsx.node;
      const {
        context
      } = this.state;
      const currentContext = context[context.length - 1];
      if (currentContext === types$1.j_oTag || currentContext === types$1.j_expr) {
        context.pop();
      }
    }
    if ((_jsx = jsx) != null && _jsx.error || this.match(47)) {
      var _jsx2, _jsx3;
      state = state || this.state.clone();
      let typeParameters;
      const arrow = this.tryParse(abort => {
        var _arrowExpression$extr;
        typeParameters = this.flowParseTypeParameterDeclaration();
        const arrowExpression = this.forwardNoArrowParamsConversionAt(typeParameters, () => {
          const result = super.parseMaybeAssign(refExpressionErrors, afterLeftParse);
          this.resetStartLocationFromNode(result, typeParameters);
          return result;
        });
        if ((_arrowExpression$extr = arrowExpression.extra) != null && _arrowExpression$extr.parenthesized) abort();
        const expr = this.maybeUnwrapTypeCastExpression(arrowExpression);
        if (expr.type !== "ArrowFunctionExpression") abort();
        expr.typeParameters = typeParameters;
        this.resetStartLocationFromNode(expr, typeParameters);
        return arrowExpression;
      }, state);
      let arrowExpression = null;
      if (arrow.node && this.maybeUnwrapTypeCastExpression(arrow.node).type === "ArrowFunctionExpression") {
        if (!arrow.error && !arrow.aborted) {
          if (arrow.node.async) {
            this.raise(FlowErrors.UnexpectedTypeParameterBeforeAsyncArrowFunction, {
              at: typeParameters
            });
          }
          return arrow.node;
        }
        arrowExpression = arrow.node;
      }
      if ((_jsx2 = jsx) != null && _jsx2.node) {
        this.state = jsx.failState;
        return jsx.node;
      }
      if (arrowExpression) {
        this.state = arrow.failState;
        return arrowExpression;
      }
      if ((_jsx3 = jsx) != null && _jsx3.thrown) throw jsx.error;
      if (arrow.thrown) throw arrow.error;
      throw this.raise(FlowErrors.UnexpectedTokenAfterTypeParameter, {
        at: typeParameters
      });
    }
    return super.parseMaybeAssign(refExpressionErrors, afterLeftParse);
  }
  parseArrow(node) {
    if (this.match(14)) {
      const result = this.tryParse(() => {
        const oldNoAnonFunctionType = this.state.noAnonFunctionType;
        this.state.noAnonFunctionType = true;
        const typeNode = this.startNode();
        [typeNode.typeAnnotation, node.predicate] = this.flowParseTypeAndPredicateInitialiser();
        this.state.noAnonFunctionType = oldNoAnonFunctionType;
        if (this.canInsertSemicolon()) this.unexpected();
        if (!this.match(19)) this.unexpected();
        return typeNode;
      });
      if (result.thrown) return null;
      if (result.error) this.state = result.failState;
      node.returnType = result.node.typeAnnotation ? this.finishNode(result.node, "TypeAnnotation") : null;
    }
    return super.parseArrow(node);
  }
  shouldParseArrow(params) {
    return this.match(14) || super.shouldParseArrow(params);
  }
  setArrowFunctionParameters(node, params) {
    if (this.state.noArrowParamsConversionAt.indexOf(node.start) !== -1) {
      node.params = params;
    } else {
      super.setArrowFunctionParameters(node, params);
    }
  }
  checkParams(node, allowDuplicates, isArrowFunction, strictModeChanged = true) {
    if (isArrowFunction && this.state.noArrowParamsConversionAt.indexOf(node.start) !== -1) {
      return;
    }
    for (let i = 0; i < node.params.length; i++) {
      if (this.isThisParam(node.params[i]) && i > 0) {
        this.raise(FlowErrors.ThisParamMustBeFirst, {
          at: node.params[i]
        });
      }
    }
    super.checkParams(node, allowDuplicates, isArrowFunction, strictModeChanged);
  }
  parseParenAndDistinguishExpression(canBeArrow) {
    return super.parseParenAndDistinguishExpression(canBeArrow && this.state.noArrowAt.indexOf(this.state.start) === -1);
  }
  parseSubscripts(base, startLoc, noCalls) {
    if (base.type === "Identifier" && base.name === "async" && this.state.noArrowAt.indexOf(startLoc.index) !== -1) {
      this.next();
      const node = this.startNodeAt(startLoc);
      node.callee = base;
      node.arguments = super.parseCallExpressionArguments(11, false);
      base = this.finishNode(node, "CallExpression");
    } else if (base.type === "Identifier" && base.name === "async" && this.match(47)) {
      const state = this.state.clone();
      const arrow = this.tryParse(abort => this.parseAsyncArrowWithTypeParameters(startLoc) || abort(), state);
      if (!arrow.error && !arrow.aborted) return arrow.node;
      const result = this.tryParse(() => super.parseSubscripts(base, startLoc, noCalls), state);
      if (result.node && !result.error) return result.node;
      if (arrow.node) {
        this.state = arrow.failState;
        return arrow.node;
      }
      if (result.node) {
        this.state = result.failState;
        return result.node;
      }
      throw arrow.error || result.error;
    }
    return super.parseSubscripts(base, startLoc, noCalls);
  }
  parseSubscript(base, startLoc, noCalls, subscriptState) {
    if (this.match(18) && this.isLookaheadToken_lt()) {
      subscriptState.optionalChainMember = true;
      if (noCalls) {
        subscriptState.stop = true;
        return base;
      }
      this.next();
      const node = this.startNodeAt(startLoc);
      node.callee = base;
      node.typeArguments = this.flowParseTypeParameterInstantiation();
      this.expect(10);
      node.arguments = this.parseCallExpressionArguments(11, false);
      node.optional = true;
      return this.finishCallExpression(node, true);
    } else if (!noCalls && this.shouldParseTypes() && this.match(47)) {
      const node = this.startNodeAt(startLoc);
      node.callee = base;
      const result = this.tryParse(() => {
        node.typeArguments = this.flowParseTypeParameterInstantiationCallOrNew();
        this.expect(10);
        node.arguments = super.parseCallExpressionArguments(11, false);
        if (subscriptState.optionalChainMember) {
          node.optional = false;
        }
        return this.finishCallExpression(node, subscriptState.optionalChainMember);
      });
      if (result.node) {
        if (result.error) this.state = result.failState;
        return result.node;
      }
    }
    return super.parseSubscript(base, startLoc, noCalls, subscriptState);
  }
  parseNewCallee(node) {
    super.parseNewCallee(node);
    let targs = null;
    if (this.shouldParseTypes() && this.match(47)) {
      targs = this.tryParse(() => this.flowParseTypeParameterInstantiationCallOrNew()).node;
    }
    node.typeArguments = targs;
  }
  parseAsyncArrowWithTypeParameters(startLoc) {
    const node = this.startNodeAt(startLoc);
    this.parseFunctionParams(node, false);
    if (!this.parseArrow(node)) return;
    return super.parseArrowExpression(node, undefined, true);
  }
  readToken_mult_modulo(code) {
    const next = this.input.charCodeAt(this.state.pos + 1);
    if (code === 42 && next === 47 && this.state.hasFlowComment) {
      this.state.hasFlowComment = false;
      this.state.pos += 2;
      this.nextToken();
      return;
    }
    super.readToken_mult_modulo(code);
  }
  readToken_pipe_amp(code) {
    const next = this.input.charCodeAt(this.state.pos + 1);
    if (code === 124 && next === 125) {
      this.finishOp(9, 2);
      return;
    }
    super.readToken_pipe_amp(code);
  }
  parseTopLevel(file, program) {
    const fileNode = super.parseTopLevel(file, program);
    if (this.state.hasFlowComment) {
      this.raise(FlowErrors.UnterminatedFlowComment, {
        at: this.state.curPosition()
      });
    }
    return fileNode;
  }
  skipBlockComment() {
    if (this.hasPlugin("flowComments") && this.skipFlowComment()) {
      if (this.state.hasFlowComment) {
        throw this.raise(FlowErrors.NestedFlowComment, {
          at: this.state.startLoc
        });
      }
      this.hasFlowCommentCompletion();
      const commentSkip = this.skipFlowComment();
      if (commentSkip) {
        this.state.pos += commentSkip;
        this.state.hasFlowComment = true;
      }
      return;
    }
    return super.skipBlockComment(this.state.hasFlowComment ? "*-/" : "*/");
  }
  skipFlowComment() {
    const {
      pos
    } = this.state;
    let shiftToFirstNonWhiteSpace = 2;
    while ([32, 9].includes(this.input.charCodeAt(pos + shiftToFirstNonWhiteSpace))) {
      shiftToFirstNonWhiteSpace++;
    }
    const ch2 = this.input.charCodeAt(shiftToFirstNonWhiteSpace + pos);
    const ch3 = this.input.charCodeAt(shiftToFirstNonWhiteSpace + pos + 1);
    if (ch2 === 58 && ch3 === 58) {
      return shiftToFirstNonWhiteSpace + 2;
    }
    if (this.input.slice(shiftToFirstNonWhiteSpace + pos, shiftToFirstNonWhiteSpace + pos + 12) === "flow-include") {
      return shiftToFirstNonWhiteSpace + 12;
    }
    if (ch2 === 58 && ch3 !== 58) {
      return shiftToFirstNonWhiteSpace;
    }
    return false;
  }
  hasFlowCommentCompletion() {
    const end = this.input.indexOf("*/", this.state.pos);
    if (end === -1) {
      throw this.raise(Errors.UnterminatedComment, {
        at: this.state.curPosition()
      });
    }
  }
  flowEnumErrorBooleanMemberNotInitialized(loc, {
    enumName,
    memberName
  }) {
    this.raise(FlowErrors.EnumBooleanMemberNotInitialized, {
      at: loc,
      memberName,
      enumName
    });
  }
  flowEnumErrorInvalidMemberInitializer(loc, enumContext) {
    return this.raise(!enumContext.explicitType ? FlowErrors.EnumInvalidMemberInitializerUnknownType : enumContext.explicitType === "symbol" ? FlowErrors.EnumInvalidMemberInitializerSymbolType : FlowErrors.EnumInvalidMemberInitializerPrimaryType, Object.assign({
      at: loc
    }, enumContext));
  }
  flowEnumErrorNumberMemberNotInitialized(loc, {
    enumName,
    memberName
  }) {
    this.raise(FlowErrors.EnumNumberMemberNotInitialized, {
      at: loc,
      enumName,
      memberName
    });
  }
  flowEnumErrorStringMemberInconsistentlyInitailized(node, {
    enumName
  }) {
    this.raise(FlowErrors.EnumStringMemberInconsistentlyInitailized, {
      at: node,
      enumName
    });
  }
  flowEnumMemberInit() {
    const startLoc = this.state.startLoc;
    const endOfInit = () => this.match(12) || this.match(8);
    switch (this.state.type) {
      case 132:
        {
          const literal = this.parseNumericLiteral(this.state.value);
          if (endOfInit()) {
            return {
              type: "number",
              loc: literal.loc.start,
              value: literal
            };
          }
          return {
            type: "invalid",
            loc: startLoc
          };
        }
      case 131:
        {
          const literal = this.parseStringLiteral(this.state.value);
          if (endOfInit()) {
            return {
              type: "string",
              loc: literal.loc.start,
              value: literal
            };
          }
          return {
            type: "invalid",
            loc: startLoc
          };
        }
      case 85:
      case 86:
        {
          const literal = this.parseBooleanLiteral(this.match(85));
          if (endOfInit()) {
            return {
              type: "boolean",
              loc: literal.loc.start,
              value: literal
            };
          }
          return {
            type: "invalid",
            loc: startLoc
          };
        }
      default:
        return {
          type: "invalid",
          loc: startLoc
        };
    }
  }
  flowEnumMemberRaw() {
    const loc = this.state.startLoc;
    const id = this.parseIdentifier(true);
    const init = this.eat(29) ? this.flowEnumMemberInit() : {
      type: "none",
      loc
    };
    return {
      id,
      init
    };
  }
  flowEnumCheckExplicitTypeMismatch(loc, context, expectedType) {
    const {
      explicitType
    } = context;
    if (explicitType === null) {
      return;
    }
    if (explicitType !== expectedType) {
      this.flowEnumErrorInvalidMemberInitializer(loc, context);
    }
  }
  flowEnumMembers({
    enumName,
    explicitType
  }) {
    const seenNames = new Set();
    const members = {
      booleanMembers: [],
      numberMembers: [],
      stringMembers: [],
      defaultedMembers: []
    };
    let hasUnknownMembers = false;
    while (!this.match(8)) {
      if (this.eat(21)) {
        hasUnknownMembers = true;
        break;
      }
      const memberNode = this.startNode();
      const {
        id,
        init
      } = this.flowEnumMemberRaw();
      const memberName = id.name;
      if (memberName === "") {
        continue;
      }
      if (/^[a-z]/.test(memberName)) {
        this.raise(FlowErrors.EnumInvalidMemberName, {
          at: id,
          memberName,
          suggestion: memberName[0].toUpperCase() + memberName.slice(1),
          enumName
        });
      }
      if (seenNames.has(memberName)) {
        this.raise(FlowErrors.EnumDuplicateMemberName, {
          at: id,
          memberName,
          enumName
        });
      }
      seenNames.add(memberName);
      const context = {
        enumName,
        explicitType,
        memberName
      };
      memberNode.id = id;
      switch (init.type) {
        case "boolean":
          {
            this.flowEnumCheckExplicitTypeMismatch(init.loc, context, "boolean");
            memberNode.init = init.value;
            members.booleanMembers.push(this.finishNode(memberNode, "EnumBooleanMember"));
            break;
          }
        case "number":
          {
            this.flowEnumCheckExplicitTypeMismatch(init.loc, context, "number");
            memberNode.init = init.value;
            members.numberMembers.push(this.finishNode(memberNode, "EnumNumberMember"));
            break;
          }
        case "string":
          {
            this.flowEnumCheckExplicitTypeMismatch(init.loc, context, "string");
            memberNode.init = init.value;
            members.stringMembers.push(this.finishNode(memberNode, "EnumStringMember"));
            break;
          }
        case "invalid":
          {
            throw this.flowEnumErrorInvalidMemberInitializer(init.loc, context);
          }
        case "none":
          {
            switch (explicitType) {
              case "boolean":
                this.flowEnumErrorBooleanMemberNotInitialized(init.loc, context);
                break;
              case "number":
                this.flowEnumErrorNumberMemberNotInitialized(init.loc, context);
                break;
              default:
                members.defaultedMembers.push(this.finishNode(memberNode, "EnumDefaultedMember"));
            }
          }
      }
      if (!this.match(8)) {
        this.expect(12);
      }
    }
    return {
      members,
      hasUnknownMembers
    };
  }
  flowEnumStringMembers(initializedMembers, defaultedMembers, {
    enumName
  }) {
    if (initializedMembers.length === 0) {
      return defaultedMembers;
    } else if (defaultedMembers.length === 0) {
      return initializedMembers;
    } else if (defaultedMembers.length > initializedMembers.length) {
      for (const member of initializedMembers) {
        this.flowEnumErrorStringMemberInconsistentlyInitailized(member, {
          enumName
        });
      }
      return defaultedMembers;
    } else {
      for (const member of defaultedMembers) {
        this.flowEnumErrorStringMemberInconsistentlyInitailized(member, {
          enumName
        });
      }
      return initializedMembers;
    }
  }
  flowEnumParseExplicitType({
    enumName
  }) {
    if (!this.eatContextual(101)) return null;
    if (!tokenIsIdentifier(this.state.type)) {
      throw this.raise(FlowErrors.EnumInvalidExplicitTypeUnknownSupplied, {
        at: this.state.startLoc,
        enumName
      });
    }
    const {
      value
    } = this.state;
    this.next();
    if (value !== "boolean" && value !== "number" && value !== "string" && value !== "symbol") {
      this.raise(FlowErrors.EnumInvalidExplicitType, {
        at: this.state.startLoc,
        enumName,
        invalidEnumType: value
      });
    }
    return value;
  }
  flowEnumBody(node, id) {
    const enumName = id.name;
    const nameLoc = id.loc.start;
    const explicitType = this.flowEnumParseExplicitType({
      enumName
    });
    this.expect(5);
    const {
      members,
      hasUnknownMembers
    } = this.flowEnumMembers({
      enumName,
      explicitType
    });
    node.hasUnknownMembers = hasUnknownMembers;
    switch (explicitType) {
      case "boolean":
        node.explicitType = true;
        node.members = members.booleanMembers;
        this.expect(8);
        return this.finishNode(node, "EnumBooleanBody");
      case "number":
        node.explicitType = true;
        node.members = members.numberMembers;
        this.expect(8);
        return this.finishNode(node, "EnumNumberBody");
      case "string":
        node.explicitType = true;
        node.members = this.flowEnumStringMembers(members.stringMembers, members.defaultedMembers, {
          enumName
        });
        this.expect(8);
        return this.finishNode(node, "EnumStringBody");
      case "symbol":
        node.members = members.defaultedMembers;
        this.expect(8);
        return this.finishNode(node, "EnumSymbolBody");
      default:
        {
          const empty = () => {
            node.members = [];
            this.expect(8);
            return this.finishNode(node, "EnumStringBody");
          };
          node.explicitType = false;
          const boolsLen = members.booleanMembers.length;
          const numsLen = members.numberMembers.length;
          const strsLen = members.stringMembers.length;
          const defaultedLen = members.defaultedMembers.length;
          if (!boolsLen && !numsLen && !strsLen && !defaultedLen) {
            return empty();
          } else if (!boolsLen && !numsLen) {
            node.members = this.flowEnumStringMembers(members.stringMembers, members.defaultedMembers, {
              enumName
            });
            this.expect(8);
            return this.finishNode(node, "EnumStringBody");
          } else if (!numsLen && !strsLen && boolsLen >= defaultedLen) {
            for (const member of members.defaultedMembers) {
              this.flowEnumErrorBooleanMemberNotInitialized(member.loc.start, {
                enumName,
                memberName: member.id.name
              });
            }
            node.members = members.booleanMembers;
            this.expect(8);
            return this.finishNode(node, "EnumBooleanBody");
          } else if (!boolsLen && !strsLen && numsLen >= defaultedLen) {
            for (const member of members.defaultedMembers) {
              this.flowEnumErrorNumberMemberNotInitialized(member.loc.start, {
                enumName,
                memberName: member.id.name
              });
            }
            node.members = members.numberMembers;
            this.expect(8);
            return this.finishNode(node, "EnumNumberBody");
          } else {
            this.raise(FlowErrors.EnumInconsistentMemberValues, {
              at: nameLoc,
              enumName
            });
            return empty();
          }
        }
    }
  }
  flowParseEnumDeclaration(node) {
    const id = this.parseIdentifier();
    node.id = id;
    node.body = this.flowEnumBody(this.startNode(), id);
    return this.finishNode(node, "EnumDeclaration");
  }
  isLookaheadToken_lt() {
    const next = this.nextTokenStart();
    if (this.input.charCodeAt(next) === 60) {
      const afterNext = this.input.charCodeAt(next + 1);
      return afterNext !== 60 && afterNext !== 61;
    }
    return false;
  }
  maybeUnwrapTypeCastExpression(node) {
    return node.type === "TypeCastExpression" ? node.expression : node;
  }
};
const entities = {
  __proto__: null,
  quot: "\u0022",
  amp: "&",
  apos: "\u0027",
  lt: "<",
  gt: ">",
  nbsp: "\u00A0",
  iexcl: "\u00A1",
  cent: "\u00A2",
  pound: "\u00A3",
  curren: "\u00A4",
  yen: "\u00A5",
  brvbar: "\u00A6",
  sect: "\u00A7",
  uml: "\u00A8",
  copy: "\u00A9",
  ordf: "\u00AA",
  laquo: "\u00AB",
  not: "\u00AC",
  shy: "\u00AD",
  reg: "\u00AE",
  macr: "\u00AF",
  deg: "\u00B0",
  plusmn: "\u00B1",
  sup2: "\u00B2",
  sup3: "\u00B3",
  acute: "\u00B4",
  micro: "\u00B5",
  para: "\u00B6",
  middot: "\u00B7",
  cedil: "\u00B8",
  sup1: "\u00B9",
  ordm: "\u00BA",
  raquo: "\u00BB",
  frac14: "\u00BC",
  frac12: "\u00BD",
  frac34: "\u00BE",
  iquest: "\u00BF",
  Agrave: "\u00C0",
  Aacute: "\u00C1",
  Acirc: "\u00C2",
  Atilde: "\u00C3",
  Auml: "\u00C4",
  Aring: "\u00C5",
  AElig: "\u00C6",
  Ccedil: "\u00C7",
  Egrave: "\u00C8",
  Eacute: "\u00C9",
  Ecirc: "\u00CA",
  Euml: "\u00CB",
  Igrave: "\u00CC",
  Iacute: "\u00CD",
  Icirc: "\u00CE",
  Iuml: "\u00CF",
  ETH: "\u00D0",
  Ntilde: "\u00D1",
  Ograve: "\u00D2",
  Oacute: "\u00D3",
  Ocirc: "\u00D4",
  Otilde: "\u00D5",
  Ouml: "\u00D6",
  times: "\u00D7",
  Oslash: "\u00D8",
  Ugrave: "\u00D9",
  Uacute: "\u00DA",
  Ucirc: "\u00DB",
  Uuml: "\u00DC",
  Yacute: "\u00DD",
  THORN: "\u00DE",
  szlig: "\u00DF",
  agrave: "\u00E0",
  aacute: "\u00E1",
  acirc: "\u00E2",
  atilde: "\u00E3",
  auml: "\u00E4",
  aring: "\u00E5",
  aelig: "\u00E6",
  ccedil: "\u00E7",
  egrave: "\u00E8",
  eacute: "\u00E9",
  ecirc: "\u00EA",
  euml: "\u00EB",
  igrave: "\u00EC",
  iacute: "\u00ED",
  icirc: "\u00EE",
  iuml: "\u00EF",
  eth: "\u00F0",
  ntilde: "\u00F1",
  ograve: "\u00F2",
  oacute: "\u00F3",
  ocirc: "\u00F4",
  otilde: "\u00F5",
  ouml: "\u00F6",
  divide: "\u00F7",
  oslash: "\u00F8",
  ugrave: "\u00F9",
  uacute: "\u00FA",
  ucirc: "\u00FB",
  uuml: "\u00FC",
  yacute: "\u00FD",
  thorn: "\u00FE",
  yuml: "\u00FF",
  OElig: "\u0152",
  oelig: "\u0153",
  Scaron: "\u0160",
  scaron: "\u0161",
  Yuml: "\u0178",
  fnof: "\u0192",
  circ: "\u02C6",
  tilde: "\u02DC",
  Alpha: "\u0391",
  Beta: "\u0392",
  Gamma: "\u0393",
  Delta: "\u0394",
  Epsilon: "\u0395",
  Zeta: "\u0396",
  Eta: "\u0397",
  Theta: "\u0398",
  Iota: "\u0399",
  Kappa: "\u039A",
  Lambda: "\u039B",
  Mu: "\u039C",
  Nu: "\u039D",
  Xi: "\u039E",
  Omicron: "\u039F",
  Pi: "\u03A0",
  Rho: "\u03A1",
  Sigma: "\u03A3",
  Tau: "\u03A4",
  Upsilon: "\u03A5",
  Phi: "\u03A6",
  Chi: "\u03A7",
  Psi: "\u03A8",
  Omega: "\u03A9",
  alpha: "\u03B1",
  beta: "\u03B2",
  gamma: "\u03B3",
  delta: "\u03B4",
  epsilon: "\u03B5",
  zeta: "\u03B6",
  eta: "\u03B7",
  theta: "\u03B8",
  iota: "\u03B9",
  kappa: "\u03BA",
  lambda: "\u03BB",
  mu: "\u03BC",
  nu: "\u03BD",
  xi: "\u03BE",
  omicron: "\u03BF",
  pi: "\u03C0",
  rho: "\u03C1",
  sigmaf: "\u03C2",
  sigma: "\u03C3",
  tau: "\u03C4",
  upsilon: "\u03C5",
  phi: "\u03C6",
  chi: "\u03C7",
  psi: "\u03C8",
  omega: "\u03C9",
  thetasym: "\u03D1",
  upsih: "\u03D2",
  piv: "\u03D6",
  ensp: "\u2002",
  emsp: "\u2003",
  thinsp: "\u2009",
  zwnj: "\u200C",
  zwj: "\u200D",
  lrm: "\u200E",
  rlm: "\u200F",
  ndash: "\u2013",
  mdash: "\u2014",
  lsquo: "\u2018",
  rsquo: "\u2019",
  sbquo: "\u201A",
  ldquo: "\u201C",
  rdquo: "\u201D",
  bdquo: "\u201E",
  dagger: "\u2020",
  Dagger: "\u2021",
  bull: "\u2022",
  hellip: "\u2026",
  permil: "\u2030",
  prime: "\u2032",
  Prime: "\u2033",
  lsaquo: "\u2039",
  rsaquo: "\u203A",
  oline: "\u203E",
  frasl: "\u2044",
  euro: "\u20AC",
  image: "\u2111",
  weierp: "\u2118",
  real: "\u211C",
  trade: "\u2122",
  alefsym: "\u2135",
  larr: "\u2190",
  uarr: "\u2191",
  rarr: "\u2192",
  darr: "\u2193",
  harr: "\u2194",
  crarr: "\u21B5",
  lArr: "\u21D0",
  uArr: "\u21D1",
  rArr: "\u21D2",
  dArr: "\u21D3",
  hArr: "\u21D4",
  forall: "\u2200",
  part: "\u2202",
  exist: "\u2203",
  empty: "\u2205",
  nabla: "\u2207",
  isin: "\u2208",
  notin: "\u2209",
  ni: "\u220B",
  prod: "\u220F",
  sum: "\u2211",
  minus: "\u2212",
  lowast: "\u2217",
  radic: "\u221A",
  prop: "\u221D",
  infin: "\u221E",
  ang: "\u2220",
  and: "\u2227",
  or: "\u2228",
  cap: "\u2229",
  cup: "\u222A",
  int: "\u222B",
  there4: "\u2234",
  sim: "\u223C",
  cong: "\u2245",
  asymp: "\u2248",
  ne: "\u2260",
  equiv: "\u2261",
  le: "\u2264",
  ge: "\u2265",
  sub: "\u2282",
  sup: "\u2283",
  nsub: "\u2284",
  sube: "\u2286",
  supe: "\u2287",
  oplus: "\u2295",
  otimes: "\u2297",
  perp: "\u22A5",
  sdot: "\u22C5",
  lceil: "\u2308",
  rceil: "\u2309",
  lfloor: "\u230A",
  rfloor: "\u230B",
  lang: "\u2329",
  rang: "\u232A",
  loz: "\u25CA",
  spades: "\u2660",
  clubs: "\u2663",
  hearts: "\u2665",
  diams: "\u2666"
};
const JsxErrors = ParseErrorEnum`jsx`({
  AttributeIsEmpty: "JSX attributes must only be assigned a non-empty expression.",
  MissingClosingTagElement: ({
    openingTagName
  }) => `Expected corresponding JSX closing tag for <${openingTagName}>.`,
  MissingClosingTagFragment: "Expected corresponding JSX closing tag for <>.",
  UnexpectedSequenceExpression: "Sequence expressions cannot be directly nested inside JSX. Did you mean to wrap it in parentheses (...)?",
  UnexpectedToken: ({
    unexpected,
    HTMLEntity
  }) => `Unexpected token \`${unexpected}\`. Did you mean \`${HTMLEntity}\` or \`{'${unexpected}'}\`?`,
  UnsupportedJsxValue: "JSX value should be either an expression or a quoted JSX text.",
  UnterminatedJsxContent: "Unterminated JSX contents.",
  UnwrappedAdjacentJSXElements: "Adjacent JSX elements must be wrapped in an enclosing tag. Did you want a JSX fragment <>...</>?"
});
function isFragment(object) {
  return object ? object.type === "JSXOpeningFragment" || object.type === "JSXClosingFragment" : false;
}
function getQualifiedJSXName(object) {
  if (object.type === "JSXIdentifier") {
    return object.name;
  }
  if (object.type === "JSXNamespacedName") {
    return object.namespace.name + ":" + object.name.name;
  }
  if (object.type === "JSXMemberExpression") {
    return getQualifiedJSXName(object.object) + "." + getQualifiedJSXName(object.property);
  }
  throw new Error("Node had unexpected type: " + object.type);
}
var jsx = superClass => class JSXParserMixin extends superClass {
  jsxReadToken() {
    let out = "";
    let chunkStart = this.state.pos;
    for (;;) {
      if (this.state.pos >= this.length) {
        throw this.raise(JsxErrors.UnterminatedJsxContent, {
          at: this.state.startLoc
        });
      }
      const ch = this.input.charCodeAt(this.state.pos);
      switch (ch) {
        case 60:
        case 123:
          if (this.state.pos === this.state.start) {
            if (ch === 60 && this.state.canStartJSXElement) {
              ++this.state.pos;
              this.finishToken(140);
            } else {
              super.getTokenFromCode(ch);
            }
            return;
          }
          out += this.input.slice(chunkStart, this.state.pos);
          this.finishToken(139, out);
          return;
        case 38:
          out += this.input.slice(chunkStart, this.state.pos);
          out += this.jsxReadEntity();
          chunkStart = this.state.pos;
          break;
        case 62:
        case 125:
        default:
          if (isNewLine(ch)) {
            out += this.input.slice(chunkStart, this.state.pos);
            out += this.jsxReadNewLine(true);
            chunkStart = this.state.pos;
          } else {
            ++this.state.pos;
          }
      }
    }
  }
  jsxReadNewLine(normalizeCRLF) {
    const ch = this.input.charCodeAt(this.state.pos);
    let out;
    ++this.state.pos;
    if (ch === 13 && this.input.charCodeAt(this.state.pos) === 10) {
      ++this.state.pos;
      out = normalizeCRLF ? "\n" : "\r\n";
    } else {
      out = String.fromCharCode(ch);
    }
    ++this.state.curLine;
    this.state.lineStart = this.state.pos;
    return out;
  }
  jsxReadString(quote) {
    let out = "";
    let chunkStart = ++this.state.pos;
    for (;;) {
      if (this.state.pos >= this.length) {
        throw this.raise(Errors.UnterminatedString, {
          at: this.state.startLoc
        });
      }
      const ch = this.input.charCodeAt(this.state.pos);
      if (ch === quote) break;
      if (ch === 38) {
        out += this.input.slice(chunkStart, this.state.pos);
        out += this.jsxReadEntity();
        chunkStart = this.state.pos;
      } else if (isNewLine(ch)) {
        out += this.input.slice(chunkStart, this.state.pos);
        out += this.jsxReadNewLine(false);
        chunkStart = this.state.pos;
      } else {
        ++this.state.pos;
      }
    }
    out += this.input.slice(chunkStart, this.state.pos++);
    this.finishToken(131, out);
  }
  jsxReadEntity() {
    const startPos = ++this.state.pos;
    if (this.codePointAtPos(this.state.pos) === 35) {
      ++this.state.pos;
      let radix = 10;
      if (this.codePointAtPos(this.state.pos) === 120) {
        radix = 16;
        ++this.state.pos;
      }
      const codePoint = this.readInt(radix, undefined, false, "bail");
      if (codePoint !== null && this.codePointAtPos(this.state.pos) === 59) {
        ++this.state.pos;
        return String.fromCodePoint(codePoint);
      }
    } else {
      let count = 0;
      let semi = false;
      while (count++ < 10 && this.state.pos < this.length && !(semi = this.codePointAtPos(this.state.pos) == 59)) {
        ++this.state.pos;
      }
      if (semi) {
        const desc = this.input.slice(startPos, this.state.pos);
        const entity = entities[desc];
        ++this.state.pos;
        if (entity) {
          return entity;
        }
      }
    }
    this.state.pos = startPos;
    return "&";
  }
  jsxReadWord() {
    let ch;
    const start = this.state.pos;
    do {
      ch = this.input.charCodeAt(++this.state.pos);
    } while (isIdentifierChar(ch) || ch === 45);
    this.finishToken(138, this.input.slice(start, this.state.pos));
  }
  jsxParseIdentifier() {
    const node = this.startNode();
    if (this.match(138)) {
      node.name = this.state.value;
    } else if (tokenIsKeyword(this.state.type)) {
      node.name = tokenLabelName(this.state.type);
    } else {
      this.unexpected();
    }
    this.next();
    return this.finishNode(node, "JSXIdentifier");
  }
  jsxParseNamespacedName() {
    const startLoc = this.state.startLoc;
    const name = this.jsxParseIdentifier();
    if (!this.eat(14)) return name;
    const node = this.startNodeAt(startLoc);
    node.namespace = name;
    node.name = this.jsxParseIdentifier();
    return this.finishNode(node, "JSXNamespacedName");
  }
  jsxParseElementName() {
    const startLoc = this.state.startLoc;
    let node = this.jsxParseNamespacedName();
    if (node.type === "JSXNamespacedName") {
      return node;
    }
    while (this.eat(16)) {
      const newNode = this.startNodeAt(startLoc);
      newNode.object = node;
      newNode.property = this.jsxParseIdentifier();
      node = this.finishNode(newNode, "JSXMemberExpression");
    }
    return node;
  }
  jsxParseAttributeValue() {
    let node;
    switch (this.state.type) {
      case 5:
        node = this.startNode();
        this.setContext(types$1.brace);
        this.next();
        node = this.jsxParseExpressionContainer(node, types$1.j_oTag);
        if (node.expression.type === "JSXEmptyExpression") {
          this.raise(JsxErrors.AttributeIsEmpty, {
            at: node
          });
        }
        return node;
      case 140:
      case 131:
        return this.parseExprAtom();
      default:
        throw this.raise(JsxErrors.UnsupportedJsxValue, {
          at: this.state.startLoc
        });
    }
  }
  jsxParseEmptyExpression() {
    const node = this.startNodeAt(this.state.lastTokEndLoc);
    return this.finishNodeAt(node, "JSXEmptyExpression", this.state.startLoc);
  }
  jsxParseSpreadChild(node) {
    this.next();
    node.expression = this.parseExpression();
    this.setContext(types$1.j_expr);
    this.state.canStartJSXElement = true;
    this.expect(8);
    return this.finishNode(node, "JSXSpreadChild");
  }
  jsxParseExpressionContainer(node, previousContext) {
    if (this.match(8)) {
      node.expression = this.jsxParseEmptyExpression();
    } else {
      const expression = this.parseExpression();
      node.expression = expression;
    }
    this.setContext(previousContext);
    this.state.canStartJSXElement = true;
    this.expect(8);
    return this.finishNode(node, "JSXExpressionContainer");
  }
  jsxParseAttribute() {
    const node = this.startNode();
    if (this.match(5)) {
      this.setContext(types$1.brace);
      this.next();
      this.expect(21);
      node.argument = this.parseMaybeAssignAllowIn();
      this.setContext(types$1.j_oTag);
      this.state.canStartJSXElement = true;
      this.expect(8);
      return this.finishNode(node, "JSXSpreadAttribute");
    }
    node.name = this.jsxParseNamespacedName();
    node.value = this.eat(29) ? this.jsxParseAttributeValue() : null;
    return this.finishNode(node, "JSXAttribute");
  }
  jsxParseOpeningElementAt(startLoc) {
    const node = this.startNodeAt(startLoc);
    if (this.eat(141)) {
      return this.finishNode(node, "JSXOpeningFragment");
    }
    node.name = this.jsxParseElementName();
    return this.jsxParseOpeningElementAfterName(node);
  }
  jsxParseOpeningElementAfterName(node) {
    const attributes = [];
    while (!this.match(56) && !this.match(141)) {
      attributes.push(this.jsxParseAttribute());
    }
    node.attributes = attributes;
    node.selfClosing = this.eat(56);
    this.expect(141);
    return this.finishNode(node, "JSXOpeningElement");
  }
  jsxParseClosingElementAt(startLoc) {
    const node = this.startNodeAt(startLoc);
    if (this.eat(141)) {
      return this.finishNode(node, "JSXClosingFragment");
    }
    node.name = this.jsxParseElementName();
    this.expect(141);
    return this.finishNode(node, "JSXClosingElement");
  }
  jsxParseElementAt(startLoc) {
    const node = this.startNodeAt(startLoc);
    const children = [];
    const openingElement = this.jsxParseOpeningElementAt(startLoc);
    let closingElement = null;
    if (!openingElement.selfClosing) {
      contents: for (;;) {
        switch (this.state.type) {
          case 140:
            startLoc = this.state.startLoc;
            this.next();
            if (this.eat(56)) {
              closingElement = this.jsxParseClosingElementAt(startLoc);
              break contents;
            }
            children.push(this.jsxParseElementAt(startLoc));
            break;
          case 139:
            children.push(this.parseExprAtom());
            break;
          case 5:
            {
              const node = this.startNode();
              this.setContext(types$1.brace);
              this.next();
              if (this.match(21)) {
                children.push(this.jsxParseSpreadChild(node));
              } else {
                children.push(this.jsxParseExpressionContainer(node, types$1.j_expr));
              }
              break;
            }
          default:
            this.unexpected();
        }
      }
      if (isFragment(openingElement) && !isFragment(closingElement) && closingElement !== null) {
        this.raise(JsxErrors.MissingClosingTagFragment, {
          at: closingElement
        });
      } else if (!isFragment(openingElement) && isFragment(closingElement)) {
        this.raise(JsxErrors.MissingClosingTagElement, {
          at: closingElement,
          openingTagName: getQualifiedJSXName(openingElement.name)
        });
      } else if (!isFragment(openingElement) && !isFragment(closingElement)) {
        if (getQualifiedJSXName(closingElement.name) !== getQualifiedJSXName(openingElement.name)) {
          this.raise(JsxErrors.MissingClosingTagElement, {
            at: closingElement,
            openingTagName: getQualifiedJSXName(openingElement.name)
          });
        }
      }
    }
    if (isFragment(openingElement)) {
      node.openingFragment = openingElement;
      node.closingFragment = closingElement;
    } else {
      node.openingElement = openingElement;
      node.closingElement = closingElement;
    }
    node.children = children;
    if (this.match(47)) {
      throw this.raise(JsxErrors.UnwrappedAdjacentJSXElements, {
        at: this.state.startLoc
      });
    }
    return isFragment(openingElement) ? this.finishNode(node, "JSXFragment") : this.finishNode(node, "JSXElement");
  }
  jsxParseElement() {
    const startLoc = this.state.startLoc;
    this.next();
    return this.jsxParseElementAt(startLoc);
  }
  setContext(newContext) {
    const {
      context
    } = this.state;
    context[context.length - 1] = newContext;
  }
  parseExprAtom(refExpressionErrors) {
    if (this.match(139)) {
      return this.parseLiteral(this.state.value, "JSXText");
    } else if (this.match(140)) {
      return this.jsxParseElement();
    } else if (this.match(47) && this.input.charCodeAt(this.state.pos) !== 33) {
      this.replaceToken(140);
      return this.jsxParseElement();
    } else {
      return super.parseExprAtom(refExpressionErrors);
    }
  }
  skipSpace() {
    const curContext = this.curContext();
    if (!curContext.preserveSpace) super.skipSpace();
  }
  getTokenFromCode(code) {
    const context = this.curContext();
    if (context === types$1.j_expr) {
      this.jsxReadToken();
      return;
    }
    if (context === types$1.j_oTag || context === types$1.j_cTag) {
      if (isIdentifierStart(code)) {
        this.jsxReadWord();
        return;
      }
      if (code === 62) {
        ++this.state.pos;
        this.finishToken(141);
        return;
      }
      if ((code === 34 || code === 39) && context === types$1.j_oTag) {
        this.jsxReadString(code);
        return;
      }
    }
    if (code === 60 && this.state.canStartJSXElement && this.input.charCodeAt(this.state.pos + 1) !== 33) {
      ++this.state.pos;
      this.finishToken(140);
      return;
    }
    super.getTokenFromCode(code);
  }
  updateContext(prevType) {
    const {
      context,
      type
    } = this.state;
    if (type === 56 && prevType === 140) {
      context.splice(-2, 2, types$1.j_cTag);
      this.state.canStartJSXElement = false;
    } else if (type === 140) {
      context.push(types$1.j_oTag);
    } else if (type === 141) {
      const out = context[context.length - 1];
      if (out === types$1.j_oTag && prevType === 56 || out === types$1.j_cTag) {
        context.pop();
        this.state.canStartJSXElement = context[context.length - 1] === types$1.j_expr;
      } else {
        this.setContext(types$1.j_expr);
        this.state.canStartJSXElement = true;
      }
    } else {
      this.state.canStartJSXElement = tokenComesBeforeExpression(type);
    }
  }
};
class TypeScriptScope extends Scope {
  constructor(...args) {
    super(...args);
    this.types = new Set();
    this.enums = new Set();
    this.constEnums = new Set();
    this.classes = new Set();
    this.exportOnlyBindings = new Set();
  }
}
class TypeScriptScopeHandler extends ScopeHandler {
  constructor(...args) {
    super(...args);
    this.importsStack = [];
  }
  createScope(flags) {
    this.importsStack.push(new Set());
    return new TypeScriptScope(flags);
  }
  enter(flags) {
    if (flags == SCOPE_TS_MODULE) {
      this.importsStack.push(new Set());
    }
    super.enter(flags);
  }
  exit() {
    const flags = super.exit();
    if (flags == SCOPE_TS_MODULE) {
      this.importsStack.pop();
    }
    return flags;
  }
  hasImport(name, allowShadow) {
    const len = this.importsStack.length;
    if (this.importsStack[len - 1].has(name)) {
      return true;
    }
    if (!allowShadow && len > 1) {
      for (let i = 0; i < len - 1; i++) {
        if (this.importsStack[i].has(name)) return true;
      }
    }
    return false;
  }
  declareName(name, bindingType, loc) {
    if (bindingType & BIND_FLAGS_TS_IMPORT) {
      if (this.hasImport(name, true)) {
        this.parser.raise(Errors.VarRedeclaration, {
          at: loc,
          identifierName: name
        });
      }
      this.importsStack[this.importsStack.length - 1].add(name);
      return;
    }
    const scope = this.currentScope();
    if (bindingType & BIND_FLAGS_TS_EXPORT_ONLY) {
      this.maybeExportDefined(scope, name);
      scope.exportOnlyBindings.add(name);
      return;
    }
    super.declareName(name, bindingType, loc);
    if (bindingType & BIND_KIND_TYPE) {
      if (!(bindingType & BIND_KIND_VALUE)) {
        this.checkRedeclarationInScope(scope, name, bindingType, loc);
        this.maybeExportDefined(scope, name);
      }
      scope.types.add(name);
    }
    if (bindingType & BIND_FLAGS_TS_ENUM) scope.enums.add(name);
    if (bindingType & BIND_FLAGS_TS_CONST_ENUM) scope.constEnums.add(name);
    if (bindingType & BIND_FLAGS_CLASS) scope.classes.add(name);
  }
  isRedeclaredInScope(scope, name, bindingType) {
    if (scope.enums.has(name)) {
      if (bindingType & BIND_FLAGS_TS_ENUM) {
        const isConst = !!(bindingType & BIND_FLAGS_TS_CONST_ENUM);
        const wasConst = scope.constEnums.has(name);
        return isConst !== wasConst;
      }
      return true;
    }
    if (bindingType & BIND_FLAGS_CLASS && scope.classes.has(name)) {
      if (scope.lexical.has(name)) {
        return !!(bindingType & BIND_KIND_VALUE);
      } else {
        return false;
      }
    }
    if (bindingType & BIND_KIND_TYPE && scope.types.has(name)) {
      return true;
    }
    return super.isRedeclaredInScope(scope, name, bindingType);
  }
  checkLocalExport(id) {
    const {
      name
    } = id;
    if (this.hasImport(name)) return;
    const len = this.scopeStack.length;
    for (let i = len - 1; i >= 0; i--) {
      const scope = this.scopeStack[i];
      if (scope.types.has(name) || scope.exportOnlyBindings.has(name)) return;
    }
    super.checkLocalExport(id);
  }
}
const getOwn$1 = (object, key) => Object.hasOwnProperty.call(object, key) && object[key];
const unwrapParenthesizedExpression = node => {
  return node.type === "ParenthesizedExpression" ? unwrapParenthesizedExpression(node.expression) : node;
};
class LValParser extends NodeUtils {
  toAssignable(node, isLHS = false) {
    var _node$extra, _node$extra3;
    let parenthesized = undefined;
    if (node.type === "ParenthesizedExpression" || (_node$extra = node.extra) != null && _node$extra.parenthesized) {
      parenthesized = unwrapParenthesizedExpression(node);
      if (isLHS) {
        if (parenthesized.type === "Identifier") {
          this.expressionScope.recordArrowParameterBindingError(Errors.InvalidParenthesizedAssignment, {
            at: node
          });
        } else if (parenthesized.type !== "MemberExpression") {
          this.raise(Errors.InvalidParenthesizedAssignment, {
            at: node
          });
        }
      } else {
        this.raise(Errors.InvalidParenthesizedAssignment, {
          at: node
        });
      }
    }
    switch (node.type) {
      case "Identifier":
      case "ObjectPattern":
      case "ArrayPattern":
      case "AssignmentPattern":
      case "RestElement":
        break;
      case "ObjectExpression":
        node.type = "ObjectPattern";
        for (let i = 0, length = node.properties.length, last = length - 1; i < length; i++) {
          var _node$extra2;
          const prop = node.properties[i];
          const isLast = i === last;
          this.toAssignableObjectExpressionProp(prop, isLast, isLHS);
          if (isLast && prop.type === "RestElement" && (_node$extra2 = node.extra) != null && _node$extra2.trailingCommaLoc) {
            this.raise(Errors.RestTrailingComma, {
              at: node.extra.trailingCommaLoc
            });
          }
        }
        break;
      case "ObjectProperty":
        {
          const {
            key,
            value
          } = node;
          if (this.isPrivateName(key)) {
            this.classScope.usePrivateName(this.getPrivateNameSV(key), key.loc.start);
          }
          this.toAssignable(value, isLHS);
          break;
        }
      case "SpreadElement":
        {
          throw new Error("Internal @babel/parser error (this is a bug, please report it)." + " SpreadElement should be converted by .toAssignable's caller.");
        }
      case "ArrayExpression":
        node.type = "ArrayPattern";
        this.toAssignableList(node.elements, (_node$extra3 = node.extra) == null ? void 0 : _node$extra3.trailingCommaLoc, isLHS);
        break;
      case "AssignmentExpression":
        if (node.operator !== "=") {
          this.raise(Errors.MissingEqInAssignment, {
            at: node.left.loc.end
          });
        }
        node.type = "AssignmentPattern";
        delete node.operator;
        this.toAssignable(node.left, isLHS);
        break;
      case "ParenthesizedExpression":
        this.toAssignable(parenthesized, isLHS);
        break;
    }
  }
  toAssignableObjectExpressionProp(prop, isLast, isLHS) {
    if (prop.type === "ObjectMethod") {
      this.raise(prop.kind === "get" || prop.kind === "set" ? Errors.PatternHasAccessor : Errors.PatternHasMethod, {
        at: prop.key
      });
    } else if (prop.type === "SpreadElement") {
      prop.type = "RestElement";
      const arg = prop.argument;
      this.checkToRestConversion(arg, false);
      this.toAssignable(arg, isLHS);
      if (!isLast) {
        this.raise(Errors.RestTrailingComma, {
          at: prop
        });
      }
    } else {
      this.toAssignable(prop, isLHS);
    }
  }
  toAssignableList(exprList, trailingCommaLoc, isLHS) {
    const end = exprList.length - 1;
    for (let i = 0; i <= end; i++) {
      const elt = exprList[i];
      if (!elt) continue;
      if (elt.type === "SpreadElement") {
        elt.type = "RestElement";
        const arg = elt.argument;
        this.checkToRestConversion(arg, true);
        this.toAssignable(arg, isLHS);
      } else {
        this.toAssignable(elt, isLHS);
      }
      if (elt.type === "RestElement") {
        if (i < end) {
          this.raise(Errors.RestTrailingComma, {
            at: elt
          });
        } else if (trailingCommaLoc) {
          this.raise(Errors.RestTrailingComma, {
            at: trailingCommaLoc
          });
        }
      }
    }
  }
  isAssignable(node, isBinding) {
    switch (node.type) {
      case "Identifier":
      case "ObjectPattern":
      case "ArrayPattern":
      case "AssignmentPattern":
      case "RestElement":
        return true;
      case "ObjectExpression":
        {
          const last = node.properties.length - 1;
          return node.properties.every((prop, i) => {
            return prop.type !== "ObjectMethod" && (i === last || prop.type !== "SpreadElement") && this.isAssignable(prop);
          });
        }
      case "ObjectProperty":
        return this.isAssignable(node.value);
      case "SpreadElement":
        return this.isAssignable(node.argument);
      case "ArrayExpression":
        return node.elements.every(element => element === null || this.isAssignable(element));
      case "AssignmentExpression":
        return node.operator === "=";
      case "ParenthesizedExpression":
        return this.isAssignable(node.expression);
      case "MemberExpression":
      case "OptionalMemberExpression":
        return !isBinding;
      default:
        return false;
    }
  }
  toReferencedList(exprList, isParenthesizedExpr) {
    return exprList;
  }
  toReferencedListDeep(exprList, isParenthesizedExpr) {
    this.toReferencedList(exprList, isParenthesizedExpr);
    for (const expr of exprList) {
      if ((expr == null ? void 0 : expr.type) === "ArrayExpression") {
        this.toReferencedListDeep(expr.elements);
      }
    }
  }
  parseSpread(refExpressionErrors) {
    const node = this.startNode();
    this.next();
    node.argument = this.parseMaybeAssignAllowIn(refExpressionErrors, undefined);
    return this.finishNode(node, "SpreadElement");
  }
  parseRestBinding() {
    const node = this.startNode();
    this.next();
    node.argument = this.parseBindingAtom();
    return this.finishNode(node, "RestElement");
  }
  parseBindingAtom() {
    switch (this.state.type) {
      case 0:
        {
          const node = this.startNode();
          this.next();
          node.elements = this.parseBindingList(3, 93, 1);
          return this.finishNode(node, "ArrayPattern");
        }
      case 5:
        return this.parseObjectLike(8, true);
    }
    return this.parseIdentifier();
  }
  parseBindingList(close, closeCharCode, flags) {
    const allowEmpty = flags & 1;
    const elts = [];
    let first = true;
    while (!this.eat(close)) {
      if (first) {
        first = false;
      } else {
        this.expect(12);
      }
      if (allowEmpty && this.match(12)) {
        elts.push(null);
      } else if (this.eat(close)) {
        break;
      } else if (this.match(21)) {
        elts.push(this.parseAssignableListItemTypes(this.parseRestBinding(), flags));
        if (!this.checkCommaAfterRest(closeCharCode)) {
          this.expect(close);
          break;
        }
      } else {
        const decorators = [];
        if (this.match(26) && this.hasPlugin("decorators")) {
          this.raise(Errors.UnsupportedParameterDecorator, {
            at: this.state.startLoc
          });
        }
        while (this.match(26)) {
          decorators.push(this.parseDecorator());
        }
        elts.push(this.parseAssignableListItem(flags, decorators));
      }
    }
    return elts;
  }
  parseBindingRestProperty(prop) {
    this.next();
    prop.argument = this.parseIdentifier();
    this.checkCommaAfterRest(125);
    return this.finishNode(prop, "RestElement");
  }
  parseBindingProperty() {
    const prop = this.startNode();
    const {
      type,
      startLoc
    } = this.state;
    if (type === 21) {
      return this.parseBindingRestProperty(prop);
    } else if (type === 136) {
      this.expectPlugin("destructuringPrivate", startLoc);
      this.classScope.usePrivateName(this.state.value, startLoc);
      prop.key = this.parsePrivateName();
    } else {
      this.parsePropertyName(prop);
    }
    prop.method = false;
    return this.parseObjPropValue(prop, startLoc, false, false, true, false);
  }
  parseAssignableListItem(flags, decorators) {
    const left = this.parseMaybeDefault();
    this.parseAssignableListItemTypes(left, flags);
    const elt = this.parseMaybeDefault(left.loc.start, left);
    if (decorators.length) {
      left.decorators = decorators;
    }
    return elt;
  }
  parseAssignableListItemTypes(param, flags) {
    return param;
  }
  parseMaybeDefault(startLoc, left) {
    var _startLoc, _left;
    (_startLoc = startLoc) != null ? _startLoc : startLoc = this.state.startLoc;
    left = (_left = left) != null ? _left : this.parseBindingAtom();
    if (!this.eat(29)) return left;
    const node = this.startNodeAt(startLoc);
    node.left = left;
    node.right = this.parseMaybeAssignAllowIn();
    return this.finishNode(node, "AssignmentPattern");
  }
  isValidLVal(type, isUnparenthesizedInAssign, binding) {
    return getOwn$1({
      AssignmentPattern: "left",
      RestElement: "argument",
      ObjectProperty: "value",
      ParenthesizedExpression: "expression",
      ArrayPattern: "elements",
      ObjectPattern: "properties"
    }, type);
  }
  checkLVal(expression, {
    in: ancestor,
    binding = BIND_NONE,
    checkClashes = false,
    strictModeChanged = false,
    hasParenthesizedAncestor = false
  }) {
    var _expression$extra;
    const type = expression.type;
    if (this.isObjectMethod(expression)) return;
    if (type === "MemberExpression") {
      if (binding !== BIND_NONE) {
        this.raise(Errors.InvalidPropertyBindingPattern, {
          at: expression
        });
      }
      return;
    }
    if (type === "Identifier") {
      this.checkIdentifier(expression, binding, strictModeChanged);
      const {
        name
      } = expression;
      if (checkClashes) {
        if (checkClashes.has(name)) {
          this.raise(Errors.ParamDupe, {
            at: expression
          });
        } else {
          checkClashes.add(name);
        }
      }
      return;
    }
    const validity = this.isValidLVal(type, !(hasParenthesizedAncestor || (_expression$extra = expression.extra) != null && _expression$extra.parenthesized) && ancestor.type === "AssignmentExpression", binding);
    if (validity === true) return;
    if (validity === false) {
      const ParseErrorClass = binding === BIND_NONE ? Errors.InvalidLhs : Errors.InvalidLhsBinding;
      this.raise(ParseErrorClass, {
        at: expression,
        ancestor
      });
      return;
    }
    const [key, isParenthesizedExpression] = Array.isArray(validity) ? validity : [validity, type === "ParenthesizedExpression"];
    const nextAncestor = type === "ArrayPattern" || type === "ObjectPattern" || type === "ParenthesizedExpression" ? {
      type
    } : ancestor;
    for (const child of [].concat(expression[key])) {
      if (child) {
        this.checkLVal(child, {
          in: nextAncestor,
          binding,
          checkClashes,
          strictModeChanged,
          hasParenthesizedAncestor: isParenthesizedExpression
        });
      }
    }
  }
  checkIdentifier(at, bindingType, strictModeChanged = false) {
    if (this.state.strict && (strictModeChanged ? isStrictBindReservedWord(at.name, this.inModule) : isStrictBindOnlyReservedWord(at.name))) {
      if (bindingType === BIND_NONE) {
        this.raise(Errors.StrictEvalArguments, {
          at,
          referenceName: at.name
        });
      } else {
        this.raise(Errors.StrictEvalArgumentsBinding, {
          at,
          bindingName: at.name
        });
      }
    }
    if (bindingType & BIND_FLAGS_NO_LET_IN_LEXICAL && at.name === "let") {
      this.raise(Errors.LetInLexicalBinding, {
        at
      });
    }
    if (!(bindingType & BIND_NONE)) {
      this.declareNameFromIdentifier(at, bindingType);
    }
  }
  declareNameFromIdentifier(identifier, binding) {
    this.scope.declareName(identifier.name, binding, identifier.loc.start);
  }
  checkToRestConversion(node, allowPattern) {
    switch (node.type) {
      case "ParenthesizedExpression":
        this.checkToRestConversion(node.expression, allowPattern);
        break;
      case "Identifier":
      case "MemberExpression":
        break;
      case "ArrayExpression":
      case "ObjectExpression":
        if (allowPattern) break;
      default:
        this.raise(Errors.InvalidRestAssignmentPattern, {
          at: node
        });
    }
  }
  checkCommaAfterRest(close) {
    if (!this.match(12)) {
      return false;
    }
    this.raise(this.lookaheadCharCode() === close ? Errors.RestTrailingComma : Errors.ElementAfterRest, {
      at: this.state.startLoc
    });
    return true;
  }
}
const getOwn = (object, key) => Object.hasOwnProperty.call(object, key) && object[key];
function nonNull(x) {
  if (x == null) {
    throw new Error(`Unexpected ${x} value.`);
  }
  return x;
}
function assert$1(x) {
  if (!x) {
    throw new Error("Assert fail");
  }
}
const TSErrors = ParseErrorEnum`typescript`({
  AbstractMethodHasImplementation: ({
    methodName
  }) => `Method '${methodName}' cannot have an implementation because it is marked abstract.`,
  AbstractPropertyHasInitializer: ({
    propertyName
  }) => `Property '${propertyName}' cannot have an initializer because it is marked abstract.`,
  AccesorCannotDeclareThisParameter: "'get' and 'set' accessors cannot declare 'this' parameters.",
  AccesorCannotHaveTypeParameters: "An accessor cannot have type parameters.",
  AccessorCannotBeOptional: "An 'accessor' property cannot be declared optional.",
  ClassMethodHasDeclare: "Class methods cannot have the 'declare' modifier.",
  ClassMethodHasReadonly: "Class methods cannot have the 'readonly' modifier.",
  ConstInitiailizerMustBeStringOrNumericLiteralOrLiteralEnumReference: "A 'const' initializer in an ambient context must be a string or numeric literal or literal enum reference.",
  ConstructorHasTypeParameters: "Type parameters cannot appear on a constructor declaration.",
  DeclareAccessor: ({
    kind
  }) => `'declare' is not allowed in ${kind}ters.`,
  DeclareClassFieldHasInitializer: "Initializers are not allowed in ambient contexts.",
  DeclareFunctionHasImplementation: "An implementation cannot be declared in ambient contexts.",
  DuplicateAccessibilityModifier: ({
    modifier
  }) => `Accessibility modifier already seen.`,
  DuplicateModifier: ({
    modifier
  }) => `Duplicate modifier: '${modifier}'.`,
  EmptyHeritageClauseType: ({
    token
  }) => `'${token}' list cannot be empty.`,
  EmptyTypeArguments: "Type argument list cannot be empty.",
  EmptyTypeParameters: "Type parameter list cannot be empty.",
  ExpectedAmbientAfterExportDeclare: "'export declare' must be followed by an ambient declaration.",
  ImportAliasHasImportType: "An import alias can not use 'import type'.",
  ImportReflectionHasImportType: "An `import module` declaration can not use `type` modifier",
  IncompatibleModifiers: ({
    modifiers
  }) => `'${modifiers[0]}' modifier cannot be used with '${modifiers[1]}' modifier.`,
  IndexSignatureHasAbstract: "Index signatures cannot have the 'abstract' modifier.",
  IndexSignatureHasAccessibility: ({
    modifier
  }) => `Index signatures cannot have an accessibility modifier ('${modifier}').`,
  IndexSignatureHasDeclare: "Index signatures cannot have the 'declare' modifier.",
  IndexSignatureHasOverride: "'override' modifier cannot appear on an index signature.",
  IndexSignatureHasStatic: "Index signatures cannot have the 'static' modifier.",
  InitializerNotAllowedInAmbientContext: "Initializers are not allowed in ambient contexts.",
  InvalidModifierOnTypeMember: ({
    modifier
  }) => `'${modifier}' modifier cannot appear on a type member.`,
  InvalidModifierOnTypeParameter: ({
    modifier
  }) => `'${modifier}' modifier cannot appear on a type parameter.`,
  InvalidModifierOnTypeParameterPositions: ({
    modifier
  }) => `'${modifier}' modifier can only appear on a type parameter of a class, interface or type alias.`,
  InvalidModifiersOrder: ({
    orderedModifiers
  }) => `'${orderedModifiers[0]}' modifier must precede '${orderedModifiers[1]}' modifier.`,
  InvalidPropertyAccessAfterInstantiationExpression: "Invalid property access after an instantiation expression. " + "You can either wrap the instantiation expression in parentheses, or delete the type arguments.",
  InvalidTupleMemberLabel: "Tuple members must be labeled with a simple identifier.",
  MissingInterfaceName: "'interface' declarations must be followed by an identifier.",
  MixedLabeledAndUnlabeledElements: "Tuple members must all have names or all not have names.",
  NonAbstractClassHasAbstractMethod: "Abstract methods can only appear within an abstract class.",
  NonClassMethodPropertyHasAbstractModifer: "'abstract' modifier can only appear on a class, method, or property declaration.",
  OptionalTypeBeforeRequired: "A required element cannot follow an optional element.",
  OverrideNotInSubClass: "This member cannot have an 'override' modifier because its containing class does not extend another class.",
  PatternIsOptional: "A binding pattern parameter cannot be optional in an implementation signature.",
  PrivateElementHasAbstract: "Private elements cannot have the 'abstract' modifier.",
  PrivateElementHasAccessibility: ({
    modifier
  }) => `Private elements cannot have an accessibility modifier ('${modifier}').`,
  ReadonlyForMethodSignature: "'readonly' modifier can only appear on a property declaration or index signature.",
  ReservedArrowTypeParam: "This syntax is reserved in files with the .mts or .cts extension. Add a trailing comma, as in `<T,>() => ...`.",
  ReservedTypeAssertion: "This syntax is reserved in files with the .mts or .cts extension. Use an `as` expression instead.",
  SetAccesorCannotHaveOptionalParameter: "A 'set' accessor cannot have an optional parameter.",
  SetAccesorCannotHaveRestParameter: "A 'set' accessor cannot have rest parameter.",
  SetAccesorCannotHaveReturnType: "A 'set' accessor cannot have a return type annotation.",
  SingleTypeParameterWithoutTrailingComma: ({
    typeParameterName
  }) => `Single type parameter ${typeParameterName} should have a trailing comma. Example usage: <${typeParameterName},>.`,
  StaticBlockCannotHaveModifier: "Static class blocks cannot have any modifier.",
  TupleOptionalAfterType: "A labeled tuple optional element must be declared using a question mark after the name and before the colon (`name?: type`), rather than after the type (`name: type?`).",
  TypeAnnotationAfterAssign: "Type annotations must come before default assignments, e.g. instead of `age = 25: number` use `age: number = 25`.",
  TypeImportCannotSpecifyDefaultAndNamed: "A type-only import can specify a default import or named bindings, but not both.",
  TypeModifierIsUsedInTypeExports: "The 'type' modifier cannot be used on a named export when 'export type' is used on its export statement.",
  TypeModifierIsUsedInTypeImports: "The 'type' modifier cannot be used on a named import when 'import type' is used on its import statement.",
  UnexpectedParameterModifier: "A parameter property is only allowed in a constructor implementation.",
  UnexpectedReadonly: "'readonly' type modifier is only permitted on array and tuple literal types.",
  UnexpectedTypeAnnotation: "Did not expect a type annotation here.",
  UnexpectedTypeCastInParameter: "Unexpected type cast in parameter position.",
  UnsupportedImportTypeArgument: "Argument in a type import must be a string literal.",
  UnsupportedParameterPropertyKind: "A parameter property may not be declared using a binding pattern.",
  UnsupportedSignatureParameterKind: ({
    type
  }) => `Name in a signature must be an Identifier, ObjectPattern or ArrayPattern, instead got ${type}.`
});
function keywordTypeFromName(value) {
  switch (value) {
    case "any":
      return "TSAnyKeyword";
    case "boolean":
      return "TSBooleanKeyword";
    case "bigint":
      return "TSBigIntKeyword";
    case "never":
      return "TSNeverKeyword";
    case "number":
      return "TSNumberKeyword";
    case "object":
      return "TSObjectKeyword";
    case "string":
      return "TSStringKeyword";
    case "symbol":
      return "TSSymbolKeyword";
    case "undefined":
      return "TSUndefinedKeyword";
    case "unknown":
      return "TSUnknownKeyword";
    default:
      return undefined;
  }
}
function tsIsAccessModifier(modifier) {
  return modifier === "private" || modifier === "public" || modifier === "protected";
}
function tsIsVarianceAnnotations(modifier) {
  return modifier === "in" || modifier === "out";
}
var typescript = superClass => class TypeScriptParserMixin extends superClass {
  constructor(...args) {
    super(...args);
    this.tsParseInOutModifiers = this.tsParseModifiers.bind(this, {
      allowedModifiers: ["in", "out"],
      disallowedModifiers: ["const", "public", "private", "protected", "readonly", "declare", "abstract", "override"],
      errorTemplate: TSErrors.InvalidModifierOnTypeParameter
    });
    this.tsParseConstModifier = this.tsParseModifiers.bind(this, {
      allowedModifiers: ["const"],
      disallowedModifiers: ["in", "out"],
      errorTemplate: TSErrors.InvalidModifierOnTypeParameterPositions
    });
    this.tsParseInOutConstModifiers = this.tsParseModifiers.bind(this, {
      allowedModifiers: ["in", "out", "const"],
      disallowedModifiers: ["public", "private", "protected", "readonly", "declare", "abstract", "override"],
      errorTemplate: TSErrors.InvalidModifierOnTypeParameter
    });
  }
  getScopeHandler() {
    return TypeScriptScopeHandler;
  }
  tsIsIdentifier() {
    return tokenIsIdentifier(this.state.type);
  }
  tsTokenCanFollowModifier() {
    return (this.match(0) || this.match(5) || this.match(55) || this.match(21) || this.match(136) || this.isLiteralPropertyName()) && !this.hasPrecedingLineBreak();
  }
  tsNextTokenCanFollowModifier() {
    this.next();
    return this.tsTokenCanFollowModifier();
  }
  tsParseModifier(allowedModifiers, stopOnStartOfClassStaticBlock) {
    if (!tokenIsIdentifier(this.state.type) && this.state.type !== 58 && this.state.type !== 75) {
      return undefined;
    }
    const modifier = this.state.value;
    if (allowedModifiers.indexOf(modifier) !== -1) {
      if (stopOnStartOfClassStaticBlock && this.tsIsStartOfStaticBlocks()) {
        return undefined;
      }
      if (this.tsTryParse(this.tsNextTokenCanFollowModifier.bind(this))) {
        return modifier;
      }
    }
    return undefined;
  }
  tsParseModifiers({
    allowedModifiers,
    disallowedModifiers,
    stopOnStartOfClassStaticBlock,
    errorTemplate = TSErrors.InvalidModifierOnTypeMember
  }, modified) {
    const enforceOrder = (loc, modifier, before, after) => {
      if (modifier === before && modified[after]) {
        this.raise(TSErrors.InvalidModifiersOrder, {
          at: loc,
          orderedModifiers: [before, after]
        });
      }
    };
    const incompatible = (loc, modifier, mod1, mod2) => {
      if (modified[mod1] && modifier === mod2 || modified[mod2] && modifier === mod1) {
        this.raise(TSErrors.IncompatibleModifiers, {
          at: loc,
          modifiers: [mod1, mod2]
        });
      }
    };
    for (;;) {
      const {
        startLoc
      } = this.state;
      const modifier = this.tsParseModifier(allowedModifiers.concat(disallowedModifiers != null ? disallowedModifiers : []), stopOnStartOfClassStaticBlock);
      if (!modifier) break;
      if (tsIsAccessModifier(modifier)) {
        if (modified.accessibility) {
          this.raise(TSErrors.DuplicateAccessibilityModifier, {
            at: startLoc,
            modifier
          });
        } else {
          enforceOrder(startLoc, modifier, modifier, "override");
          enforceOrder(startLoc, modifier, modifier, "static");
          enforceOrder(startLoc, modifier, modifier, "readonly");
          modified.accessibility = modifier;
        }
      } else if (tsIsVarianceAnnotations(modifier)) {
        if (modified[modifier]) {
          this.raise(TSErrors.DuplicateModifier, {
            at: startLoc,
            modifier
          });
        }
        modified[modifier] = true;
        enforceOrder(startLoc, modifier, "in", "out");
      } else {
        if (Object.hasOwnProperty.call(modified, modifier)) {
          this.raise(TSErrors.DuplicateModifier, {
            at: startLoc,
            modifier
          });
        } else {
          enforceOrder(startLoc, modifier, "static", "readonly");
          enforceOrder(startLoc, modifier, "static", "override");
          enforceOrder(startLoc, modifier, "override", "readonly");
          enforceOrder(startLoc, modifier, "abstract", "override");
          incompatible(startLoc, modifier, "declare", "override");
          incompatible(startLoc, modifier, "static", "abstract");
        }
        modified[modifier] = true;
      }
      if (disallowedModifiers != null && disallowedModifiers.includes(modifier)) {
        this.raise(errorTemplate, {
          at: startLoc,
          modifier
        });
      }
    }
  }
  tsIsListTerminator(kind) {
    switch (kind) {
      case "EnumMembers":
      case "TypeMembers":
        return this.match(8);
      case "HeritageClauseElement":
        return this.match(5);
      case "TupleElementTypes":
        return this.match(3);
      case "TypeParametersOrArguments":
        return this.match(48);
    }
  }
  tsParseList(kind, parseElement) {
    const result = [];
    while (!this.tsIsListTerminator(kind)) {
      result.push(parseElement());
    }
    return result;
  }
  tsParseDelimitedList(kind, parseElement, refTrailingCommaPos) {
    return nonNull(this.tsParseDelimitedListWorker(kind, parseElement, true, refTrailingCommaPos));
  }
  tsParseDelimitedListWorker(kind, parseElement, expectSuccess, refTrailingCommaPos) {
    const result = [];
    let trailingCommaPos = -1;
    for (;;) {
      if (this.tsIsListTerminator(kind)) {
        break;
      }
      trailingCommaPos = -1;
      const element = parseElement();
      if (element == null) {
        return undefined;
      }
      result.push(element);
      if (this.eat(12)) {
        trailingCommaPos = this.state.lastTokStart;
        continue;
      }
      if (this.tsIsListTerminator(kind)) {
        break;
      }
      if (expectSuccess) {
        this.expect(12);
      }
      return undefined;
    }
    if (refTrailingCommaPos) {
      refTrailingCommaPos.value = trailingCommaPos;
    }
    return result;
  }
  tsParseBracketedList(kind, parseElement, bracket, skipFirstToken, refTrailingCommaPos) {
    if (!skipFirstToken) {
      if (bracket) {
        this.expect(0);
      } else {
        this.expect(47);
      }
    }
    const result = this.tsParseDelimitedList(kind, parseElement, refTrailingCommaPos);
    if (bracket) {
      this.expect(3);
    } else {
      this.expect(48);
    }
    return result;
  }
  tsParseImportType() {
    const node = this.startNode();
    this.expect(83);
    this.expect(10);
    if (!this.match(131)) {
      this.raise(TSErrors.UnsupportedImportTypeArgument, {
        at: this.state.startLoc
      });
    }
    node.argument = super.parseExprAtom();
    this.expect(11);
    if (this.eat(16)) {
      node.qualifier = this.tsParseEntityName();
    }
    if (this.match(47)) {
      node.typeParameters = this.tsParseTypeArguments();
    }
    return this.finishNode(node, "TSImportType");
  }
  tsParseEntityName(allowReservedWords = true) {
    let entity = this.parseIdentifier(allowReservedWords);
    while (this.eat(16)) {
      const node = this.startNodeAtNode(entity);
      node.left = entity;
      node.right = this.parseIdentifier(allowReservedWords);
      entity = this.finishNode(node, "TSQualifiedName");
    }
    return entity;
  }
  tsParseTypeReference() {
    const node = this.startNode();
    node.typeName = this.tsParseEntityName();
    if (!this.hasPrecedingLineBreak() && this.match(47)) {
      node.typeParameters = this.tsParseTypeArguments();
    }
    return this.finishNode(node, "TSTypeReference");
  }
  tsParseThisTypePredicate(lhs) {
    this.next();
    const node = this.startNodeAtNode(lhs);
    node.parameterName = lhs;
    node.typeAnnotation = this.tsParseTypeAnnotation(false);
    node.asserts = false;
    return this.finishNode(node, "TSTypePredicate");
  }
  tsParseThisTypeNode() {
    const node = this.startNode();
    this.next();
    return this.finishNode(node, "TSThisType");
  }
  tsParseTypeQuery() {
    const node = this.startNode();
    this.expect(87);
    if (this.match(83)) {
      node.exprName = this.tsParseImportType();
    } else {
      node.exprName = this.tsParseEntityName();
    }
    if (!this.hasPrecedingLineBreak() && this.match(47)) {
      node.typeParameters = this.tsParseTypeArguments();
    }
    return this.finishNode(node, "TSTypeQuery");
  }
  tsParseTypeParameter(parseModifiers) {
    const node = this.startNode();
    parseModifiers(node);
    node.name = this.tsParseTypeParameterName();
    node.constraint = this.tsEatThenParseType(81);
    node.default = this.tsEatThenParseType(29);
    return this.finishNode(node, "TSTypeParameter");
  }
  tsTryParseTypeParameters(parseModifiers) {
    if (this.match(47)) {
      return this.tsParseTypeParameters(parseModifiers);
    }
  }
  tsParseTypeParameters(parseModifiers) {
    const node = this.startNode();
    if (this.match(47) || this.match(140)) {
      this.next();
    } else {
      this.unexpected();
    }
    const refTrailingCommaPos = {
      value: -1
    };
    node.params = this.tsParseBracketedList("TypeParametersOrArguments", this.tsParseTypeParameter.bind(this, parseModifiers), false, true, refTrailingCommaPos);
    if (node.params.length === 0) {
      this.raise(TSErrors.EmptyTypeParameters, {
        at: node
      });
    }
    if (refTrailingCommaPos.value !== -1) {
      this.addExtra(node, "trailingComma", refTrailingCommaPos.value);
    }
    return this.finishNode(node, "TSTypeParameterDeclaration");
  }
  tsFillSignature(returnToken, signature) {
    const returnTokenRequired = returnToken === 19;
    const paramsKey = "parameters";
    const returnTypeKey = "typeAnnotation";
    signature.typeParameters = this.tsTryParseTypeParameters(this.tsParseConstModifier);
    this.expect(10);
    signature[paramsKey] = this.tsParseBindingListForSignature();
    if (returnTokenRequired) {
      signature[returnTypeKey] = this.tsParseTypeOrTypePredicateAnnotation(returnToken);
    } else if (this.match(returnToken)) {
      signature[returnTypeKey] = this.tsParseTypeOrTypePredicateAnnotation(returnToken);
    }
  }
  tsParseBindingListForSignature() {
    return super.parseBindingList(11, 41, 2).map(pattern => {
      if (pattern.type !== "Identifier" && pattern.type !== "RestElement" && pattern.type !== "ObjectPattern" && pattern.type !== "ArrayPattern") {
        this.raise(TSErrors.UnsupportedSignatureParameterKind, {
          at: pattern,
          type: pattern.type
        });
      }
      return pattern;
    });
  }
  tsParseTypeMemberSemicolon() {
    if (!this.eat(12) && !this.isLineTerminator()) {
      this.expect(13);
    }
  }
  tsParseSignatureMember(kind, node) {
    this.tsFillSignature(14, node);
    this.tsParseTypeMemberSemicolon();
    return this.finishNode(node, kind);
  }
  tsIsUnambiguouslyIndexSignature() {
    this.next();
    if (tokenIsIdentifier(this.state.type)) {
      this.next();
      return this.match(14);
    }
    return false;
  }
  tsTryParseIndexSignature(node) {
    if (!(this.match(0) && this.tsLookAhead(this.tsIsUnambiguouslyIndexSignature.bind(this)))) {
      return undefined;
    }
    this.expect(0);
    const id = this.parseIdentifier();
    id.typeAnnotation = this.tsParseTypeAnnotation();
    this.resetEndLocation(id);
    this.expect(3);
    node.parameters = [id];
    const type = this.tsTryParseTypeAnnotation();
    if (type) node.typeAnnotation = type;
    this.tsParseTypeMemberSemicolon();
    return this.finishNode(node, "TSIndexSignature");
  }
  tsParsePropertyOrMethodSignature(node, readonly) {
    if (this.eat(17)) node.optional = true;
    const nodeAny = node;
    if (this.match(10) || this.match(47)) {
      if (readonly) {
        this.raise(TSErrors.ReadonlyForMethodSignature, {
          at: node
        });
      }
      const method = nodeAny;
      if (method.kind && this.match(47)) {
        this.raise(TSErrors.AccesorCannotHaveTypeParameters, {
          at: this.state.curPosition()
        });
      }
      this.tsFillSignature(14, method);
      this.tsParseTypeMemberSemicolon();
      const paramsKey = "parameters";
      const returnTypeKey = "typeAnnotation";
      if (method.kind === "get") {
        if (method[paramsKey].length > 0) {
          this.raise(Errors.BadGetterArity, {
            at: this.state.curPosition()
          });
          if (this.isThisParam(method[paramsKey][0])) {
            this.raise(TSErrors.AccesorCannotDeclareThisParameter, {
              at: this.state.curPosition()
            });
          }
        }
      } else if (method.kind === "set") {
        if (method[paramsKey].length !== 1) {
          this.raise(Errors.BadSetterArity, {
            at: this.state.curPosition()
          });
        } else {
          const firstParameter = method[paramsKey][0];
          if (this.isThisParam(firstParameter)) {
            this.raise(TSErrors.AccesorCannotDeclareThisParameter, {
              at: this.state.curPosition()
            });
          }
          if (firstParameter.type === "Identifier" && firstParameter.optional) {
            this.raise(TSErrors.SetAccesorCannotHaveOptionalParameter, {
              at: this.state.curPosition()
            });
          }
          if (firstParameter.type === "RestElement") {
            this.raise(TSErrors.SetAccesorCannotHaveRestParameter, {
              at: this.state.curPosition()
            });
          }
        }
        if (method[returnTypeKey]) {
          this.raise(TSErrors.SetAccesorCannotHaveReturnType, {
            at: method[returnTypeKey]
          });
        }
      } else {
        method.kind = "method";
      }
      return this.finishNode(method, "TSMethodSignature");
    } else {
      const property = nodeAny;
      if (readonly) property.readonly = true;
      const type = this.tsTryParseTypeAnnotation();
      if (type) property.typeAnnotation = type;
      this.tsParseTypeMemberSemicolon();
      return this.finishNode(property, "TSPropertySignature");
    }
  }
  tsParseTypeMember() {
    const node = this.startNode();
    if (this.match(10) || this.match(47)) {
      return this.tsParseSignatureMember("TSCallSignatureDeclaration", node);
    }
    if (this.match(77)) {
      const id = this.startNode();
      this.next();
      if (this.match(10) || this.match(47)) {
        return this.tsParseSignatureMember("TSConstructSignatureDeclaration", node);
      } else {
        node.key = this.createIdentifier(id, "new");
        return this.tsParsePropertyOrMethodSignature(node, false);
      }
    }
    this.tsParseModifiers({
      allowedModifiers: ["readonly"],
      disallowedModifiers: ["declare", "abstract", "private", "protected", "public", "static", "override"]
    }, node);
    const idx = this.tsTryParseIndexSignature(node);
    if (idx) {
      return idx;
    }
    super.parsePropertyName(node);
    if (!node.computed && node.key.type === "Identifier" && (node.key.name === "get" || node.key.name === "set") && this.tsTokenCanFollowModifier()) {
      node.kind = node.key.name;
      super.parsePropertyName(node);
    }
    return this.tsParsePropertyOrMethodSignature(node, !!node.readonly);
  }
  tsParseTypeLiteral() {
    const node = this.startNode();
    node.members = this.tsParseObjectTypeMembers();
    return this.finishNode(node, "TSTypeLiteral");
  }
  tsParseObjectTypeMembers() {
    this.expect(5);
    const members = this.tsParseList("TypeMembers", this.tsParseTypeMember.bind(this));
    this.expect(8);
    return members;
  }
  tsIsStartOfMappedType() {
    this.next();
    if (this.eat(53)) {
      return this.isContextual(120);
    }
    if (this.isContextual(120)) {
      this.next();
    }
    if (!this.match(0)) {
      return false;
    }
    this.next();
    if (!this.tsIsIdentifier()) {
      return false;
    }
    this.next();
    return this.match(58);
  }
  tsParseMappedTypeParameter() {
    const node = this.startNode();
    node.name = this.tsParseTypeParameterName();
    node.constraint = this.tsExpectThenParseType(58);
    return this.finishNode(node, "TSTypeParameter");
  }
  tsParseMappedType() {
    const node = this.startNode();
    this.expect(5);
    if (this.match(53)) {
      node.readonly = this.state.value;
      this.next();
      this.expectContextual(120);
    } else if (this.eatContextual(120)) {
      node.readonly = true;
    }
    this.expect(0);
    node.typeParameter = this.tsParseMappedTypeParameter();
    node.nameType = this.eatContextual(93) ? this.tsParseType() : null;
    this.expect(3);
    if (this.match(53)) {
      node.optional = this.state.value;
      this.next();
      this.expect(17);
    } else if (this.eat(17)) {
      node.optional = true;
    }
    node.typeAnnotation = this.tsTryParseType();
    this.semicolon();
    this.expect(8);
    return this.finishNode(node, "TSMappedType");
  }
  tsParseTupleType() {
    const node = this.startNode();
    node.elementTypes = this.tsParseBracketedList("TupleElementTypes", this.tsParseTupleElementType.bind(this), true, false);
    let seenOptionalElement = false;
    let labeledElements = null;
    node.elementTypes.forEach(elementNode => {
      var _labeledElements;
      const {
        type
      } = elementNode;
      if (seenOptionalElement && type !== "TSRestType" && type !== "TSOptionalType" && !(type === "TSNamedTupleMember" && elementNode.optional)) {
        this.raise(TSErrors.OptionalTypeBeforeRequired, {
          at: elementNode
        });
      }
      seenOptionalElement || (seenOptionalElement = type === "TSNamedTupleMember" && elementNode.optional || type === "TSOptionalType");
      let checkType = type;
      if (type === "TSRestType") {
        elementNode = elementNode.typeAnnotation;
        checkType = elementNode.type;
      }
      const isLabeled = checkType === "TSNamedTupleMember";
      (_labeledElements = labeledElements) != null ? _labeledElements : labeledElements = isLabeled;
      if (labeledElements !== isLabeled) {
        this.raise(TSErrors.MixedLabeledAndUnlabeledElements, {
          at: elementNode
        });
      }
    });
    return this.finishNode(node, "TSTupleType");
  }
  tsParseTupleElementType() {
    const {
      startLoc
    } = this.state;
    const rest = this.eat(21);
    let labeled;
    let label;
    let optional;
    let type;
    const isWord = tokenIsKeywordOrIdentifier(this.state.type);
    const chAfterWord = isWord ? this.lookaheadCharCode() : null;
    if (chAfterWord === 58) {
      labeled = true;
      optional = false;
      label = this.parseIdentifier(true);
      this.expect(14);
      type = this.tsParseType();
    } else if (chAfterWord === 63) {
      optional = true;
      const startLoc = this.state.startLoc;
      const wordName = this.state.value;
      const typeOrLabel = this.tsParseNonArrayType();
      if (this.lookaheadCharCode() === 58) {
        labeled = true;
        label = this.createIdentifier(this.startNodeAt(startLoc), wordName);
        this.expect(17);
        this.expect(14);
        type = this.tsParseType();
      } else {
        labeled = false;
        type = typeOrLabel;
        this.expect(17);
      }
    } else {
      type = this.tsParseType();
      optional = this.eat(17);
      labeled = this.eat(14);
    }
    if (labeled) {
      let labeledNode;
      if (label) {
        labeledNode = this.startNodeAtNode(label);
        labeledNode.optional = optional;
        labeledNode.label = label;
        labeledNode.elementType = type;
        if (this.eat(17)) {
          labeledNode.optional = true;
          this.raise(TSErrors.TupleOptionalAfterType, {
            at: this.state.lastTokStartLoc
          });
        }
      } else {
        labeledNode = this.startNodeAtNode(type);
        labeledNode.optional = optional;
        this.raise(TSErrors.InvalidTupleMemberLabel, {
          at: type
        });
        labeledNode.label = type;
        labeledNode.elementType = this.tsParseType();
      }
      type = this.finishNode(labeledNode, "TSNamedTupleMember");
    } else if (optional) {
      const optionalTypeNode = this.startNodeAtNode(type);
      optionalTypeNode.typeAnnotation = type;
      type = this.finishNode(optionalTypeNode, "TSOptionalType");
    }
    if (rest) {
      const restNode = this.startNodeAt(startLoc);
      restNode.typeAnnotation = type;
      type = this.finishNode(restNode, "TSRestType");
    }
    return type;
  }
  tsParseParenthesizedType() {
    const node = this.startNode();
    this.expect(10);
    node.typeAnnotation = this.tsParseType();
    this.expect(11);
    return this.finishNode(node, "TSParenthesizedType");
  }
  tsParseFunctionOrConstructorType(type, abstract) {
    const node = this.startNode();
    if (type === "TSConstructorType") {
      node.abstract = !!abstract;
      if (abstract) this.next();
      this.next();
    }
    this.tsInAllowConditionalTypesContext(() => this.tsFillSignature(19, node));
    return this.finishNode(node, type);
  }
  tsParseLiteralTypeNode() {
    const node = this.startNode();
    node.literal = (() => {
      switch (this.state.type) {
        case 132:
        case 133:
        case 131:
        case 85:
        case 86:
          return super.parseExprAtom();
        default:
          this.unexpected();
      }
    })();
    return this.finishNode(node, "TSLiteralType");
  }
  tsParseTemplateLiteralType() {
    const node = this.startNode();
    node.literal = super.parseTemplate(false);
    return this.finishNode(node, "TSLiteralType");
  }
  parseTemplateSubstitution() {
    if (this.state.inType) return this.tsParseType();
    return super.parseTemplateSubstitution();
  }
  tsParseThisTypeOrThisTypePredicate() {
    const thisKeyword = this.tsParseThisTypeNode();
    if (this.isContextual(114) && !this.hasPrecedingLineBreak()) {
      return this.tsParseThisTypePredicate(thisKeyword);
    } else {
      return thisKeyword;
    }
  }
  tsParseNonArrayType() {
    switch (this.state.type) {
      case 131:
      case 132:
      case 133:
      case 85:
      case 86:
        return this.tsParseLiteralTypeNode();
      case 53:
        if (this.state.value === "-") {
          const node = this.startNode();
          const nextToken = this.lookahead();
          if (nextToken.type !== 132 && nextToken.type !== 133) {
            this.unexpected();
          }
          node.literal = this.parseMaybeUnary();
          return this.finishNode(node, "TSLiteralType");
        }
        break;
      case 78:
        return this.tsParseThisTypeOrThisTypePredicate();
      case 87:
        return this.tsParseTypeQuery();
      case 83:
        return this.tsParseImportType();
      case 5:
        return this.tsLookAhead(this.tsIsStartOfMappedType.bind(this)) ? this.tsParseMappedType() : this.tsParseTypeLiteral();
      case 0:
        return this.tsParseTupleType();
      case 10:
        return this.tsParseParenthesizedType();
      case 25:
      case 24:
        return this.tsParseTemplateLiteralType();
      default:
        {
          const {
            type
          } = this.state;
          if (tokenIsIdentifier(type) || type === 88 || type === 84) {
            const nodeType = type === 88 ? "TSVoidKeyword" : type === 84 ? "TSNullKeyword" : keywordTypeFromName(this.state.value);
            if (nodeType !== undefined && this.lookaheadCharCode() !== 46) {
              const node = this.startNode();
              this.next();
              return this.finishNode(node, nodeType);
            }
            return this.tsParseTypeReference();
          }
        }
    }
    this.unexpected();
  }
  tsParseArrayTypeOrHigher() {
    let type = this.tsParseNonArrayType();
    while (!this.hasPrecedingLineBreak() && this.eat(0)) {
      if (this.match(3)) {
        const node = this.startNodeAtNode(type);
        node.elementType = type;
        this.expect(3);
        type = this.finishNode(node, "TSArrayType");
      } else {
        const node = this.startNodeAtNode(type);
        node.objectType = type;
        node.indexType = this.tsParseType();
        this.expect(3);
        type = this.finishNode(node, "TSIndexedAccessType");
      }
    }
    return type;
  }
  tsParseTypeOperator() {
    const node = this.startNode();
    const operator = this.state.value;
    this.next();
    node.operator = operator;
    node.typeAnnotation = this.tsParseTypeOperatorOrHigher();
    if (operator === "readonly") {
      this.tsCheckTypeAnnotationForReadOnly(node);
    }
    return this.finishNode(node, "TSTypeOperator");
  }
  tsCheckTypeAnnotationForReadOnly(node) {
    switch (node.typeAnnotation.type) {
      case "TSTupleType":
      case "TSArrayType":
        return;
      default:
        this.raise(TSErrors.UnexpectedReadonly, {
          at: node
        });
    }
  }
  tsParseInferType() {
    const node = this.startNode();
    this.expectContextual(113);
    const typeParameter = this.startNode();
    typeParameter.name = this.tsParseTypeParameterName();
    typeParameter.constraint = this.tsTryParse(() => this.tsParseConstraintForInferType());
    node.typeParameter = this.finishNode(typeParameter, "TSTypeParameter");
    return this.finishNode(node, "TSInferType");
  }
  tsParseConstraintForInferType() {
    if (this.eat(81)) {
      const constraint = this.tsInDisallowConditionalTypesContext(() => this.tsParseType());
      if (this.state.inDisallowConditionalTypesContext || !this.match(17)) {
        return constraint;
      }
    }
  }
  tsParseTypeOperatorOrHigher() {
    const isTypeOperator = tokenIsTSTypeOperator(this.state.type) && !this.state.containsEsc;
    return isTypeOperator ? this.tsParseTypeOperator() : this.isContextual(113) ? this.tsParseInferType() : this.tsInAllowConditionalTypesContext(() => this.tsParseArrayTypeOrHigher());
  }
  tsParseUnionOrIntersectionType(kind, parseConstituentType, operator) {
    const node = this.startNode();
    const hasLeadingOperator = this.eat(operator);
    const types = [];
    do {
      types.push(parseConstituentType());
    } while (this.eat(operator));
    if (types.length === 1 && !hasLeadingOperator) {
      return types[0];
    }
    node.types = types;
    return this.finishNode(node, kind);
  }
  tsParseIntersectionTypeOrHigher() {
    return this.tsParseUnionOrIntersectionType("TSIntersectionType", this.tsParseTypeOperatorOrHigher.bind(this), 45);
  }
  tsParseUnionTypeOrHigher() {
    return this.tsParseUnionOrIntersectionType("TSUnionType", this.tsParseIntersectionTypeOrHigher.bind(this), 43);
  }
  tsIsStartOfFunctionType() {
    if (this.match(47)) {
      return true;
    }
    return this.match(10) && this.tsLookAhead(this.tsIsUnambiguouslyStartOfFunctionType.bind(this));
  }
  tsSkipParameterStart() {
    if (tokenIsIdentifier(this.state.type) || this.match(78)) {
      this.next();
      return true;
    }
    if (this.match(5)) {
      const {
        errors
      } = this.state;
      const previousErrorCount = errors.length;
      try {
        this.parseObjectLike(8, true);
        return errors.length === previousErrorCount;
      } catch (_unused) {
        return false;
      }
    }
    if (this.match(0)) {
      this.next();
      const {
        errors
      } = this.state;
      const previousErrorCount = errors.length;
      try {
        super.parseBindingList(3, 93, 1);
        return errors.length === previousErrorCount;
      } catch (_unused2) {
        return false;
      }
    }
    return false;
  }
  tsIsUnambiguouslyStartOfFunctionType() {
    this.next();
    if (this.match(11) || this.match(21)) {
      return true;
    }
    if (this.tsSkipParameterStart()) {
      if (this.match(14) || this.match(12) || this.match(17) || this.match(29)) {
        return true;
      }
      if (this.match(11)) {
        this.next();
        if (this.match(19)) {
          return true;
        }
      }
    }
    return false;
  }
  tsParseTypeOrTypePredicateAnnotation(returnToken) {
    return this.tsInType(() => {
      const t = this.startNode();
      this.expect(returnToken);
      const node = this.startNode();
      const asserts = !!this.tsTryParse(this.tsParseTypePredicateAsserts.bind(this));
      if (asserts && this.match(78)) {
        let thisTypePredicate = this.tsParseThisTypeOrThisTypePredicate();
        if (thisTypePredicate.type === "TSThisType") {
          node.parameterName = thisTypePredicate;
          node.asserts = true;
          node.typeAnnotation = null;
          thisTypePredicate = this.finishNode(node, "TSTypePredicate");
        } else {
          this.resetStartLocationFromNode(thisTypePredicate, node);
          thisTypePredicate.asserts = true;
        }
        t.typeAnnotation = thisTypePredicate;
        return this.finishNode(t, "TSTypeAnnotation");
      }
      const typePredicateVariable = this.tsIsIdentifier() && this.tsTryParse(this.tsParseTypePredicatePrefix.bind(this));
      if (!typePredicateVariable) {
        if (!asserts) {
          return this.tsParseTypeAnnotation(false, t);
        }
        node.parameterName = this.parseIdentifier();
        node.asserts = asserts;
        node.typeAnnotation = null;
        t.typeAnnotation = this.finishNode(node, "TSTypePredicate");
        return this.finishNode(t, "TSTypeAnnotation");
      }
      const type = this.tsParseTypeAnnotation(false);
      node.parameterName = typePredicateVariable;
      node.typeAnnotation = type;
      node.asserts = asserts;
      t.typeAnnotation = this.finishNode(node, "TSTypePredicate");
      return this.finishNode(t, "TSTypeAnnotation");
    });
  }
  tsTryParseTypeOrTypePredicateAnnotation() {
    return this.match(14) ? this.tsParseTypeOrTypePredicateAnnotation(14) : undefined;
  }
  tsTryParseTypeAnnotation() {
    return this.match(14) ? this.tsParseTypeAnnotation() : undefined;
  }
  tsTryParseType() {
    return this.tsEatThenParseType(14);
  }
  tsParseTypePredicatePrefix() {
    const id = this.parseIdentifier();
    if (this.isContextual(114) && !this.hasPrecedingLineBreak()) {
      this.next();
      return id;
    }
  }
  tsParseTypePredicateAsserts() {
    if (this.state.type !== 107) {
      return false;
    }
    const containsEsc = this.state.containsEsc;
    this.next();
    if (!tokenIsIdentifier(this.state.type) && !this.match(78)) {
      return false;
    }
    if (containsEsc) {
      this.raise(Errors.InvalidEscapedReservedWord, {
        at: this.state.lastTokStartLoc,
        reservedWord: "asserts"
      });
    }
    return true;
  }
  tsParseTypeAnnotation(eatColon = true, t = this.startNode()) {
    this.tsInType(() => {
      if (eatColon) this.expect(14);
      t.typeAnnotation = this.tsParseType();
    });
    return this.finishNode(t, "TSTypeAnnotation");
  }
  tsParseType() {
    assert$1(this.state.inType);
    const type = this.tsParseNonConditionalType();
    if (this.state.inDisallowConditionalTypesContext || this.hasPrecedingLineBreak() || !this.eat(81)) {
      return type;
    }
    const node = this.startNodeAtNode(type);
    node.checkType = type;
    node.extendsType = this.tsInDisallowConditionalTypesContext(() => this.tsParseNonConditionalType());
    this.expect(17);
    node.trueType = this.tsInAllowConditionalTypesContext(() => this.tsParseType());
    this.expect(14);
    node.falseType = this.tsInAllowConditionalTypesContext(() => this.tsParseType());
    return this.finishNode(node, "TSConditionalType");
  }
  isAbstractConstructorSignature() {
    return this.isContextual(122) && this.lookahead().type === 77;
  }
  tsParseNonConditionalType() {
    if (this.tsIsStartOfFunctionType()) {
      return this.tsParseFunctionOrConstructorType("TSFunctionType");
    }
    if (this.match(77)) {
      return this.tsParseFunctionOrConstructorType("TSConstructorType");
    } else if (this.isAbstractConstructorSignature()) {
      return this.tsParseFunctionOrConstructorType("TSConstructorType", true);
    }
    return this.tsParseUnionTypeOrHigher();
  }
  tsParseTypeAssertion() {
    if (this.getPluginOption("typescript", "disallowAmbiguousJSXLike")) {
      this.raise(TSErrors.ReservedTypeAssertion, {
        at: this.state.startLoc
      });
    }
    const node = this.startNode();
    node.typeAnnotation = this.tsInType(() => {
      this.next();
      return this.match(75) ? this.tsParseTypeReference() : this.tsParseType();
    });
    this.expect(48);
    node.expression = this.parseMaybeUnary();
    return this.finishNode(node, "TSTypeAssertion");
  }
  tsParseHeritageClause(token) {
    const originalStartLoc = this.state.startLoc;
    const delimitedList = this.tsParseDelimitedList("HeritageClauseElement", () => {
      const node = this.startNode();
      node.expression = this.tsParseEntityName();
      if (this.match(47)) {
        node.typeParameters = this.tsParseTypeArguments();
      }
      return this.finishNode(node, "TSExpressionWithTypeArguments");
    });
    if (!delimitedList.length) {
      this.raise(TSErrors.EmptyHeritageClauseType, {
        at: originalStartLoc,
        token
      });
    }
    return delimitedList;
  }
  tsParseInterfaceDeclaration(node, properties = {}) {
    if (this.hasFollowingLineBreak()) return null;
    this.expectContextual(127);
    if (properties.declare) node.declare = true;
    if (tokenIsIdentifier(this.state.type)) {
      node.id = this.parseIdentifier();
      this.checkIdentifier(node.id, BIND_TS_INTERFACE);
    } else {
      node.id = null;
      this.raise(TSErrors.MissingInterfaceName, {
        at: this.state.startLoc
      });
    }
    node.typeParameters = this.tsTryParseTypeParameters(this.tsParseInOutConstModifiers);
    if (this.eat(81)) {
      node.extends = this.tsParseHeritageClause("extends");
    }
    const body = this.startNode();
    body.body = this.tsInType(this.tsParseObjectTypeMembers.bind(this));
    node.body = this.finishNode(body, "TSInterfaceBody");
    return this.finishNode(node, "TSInterfaceDeclaration");
  }
  tsParseTypeAliasDeclaration(node) {
    node.id = this.parseIdentifier();
    this.checkIdentifier(node.id, BIND_TS_TYPE);
    node.typeAnnotation = this.tsInType(() => {
      node.typeParameters = this.tsTryParseTypeParameters(this.tsParseInOutModifiers);
      this.expect(29);
      if (this.isContextual(112) && this.lookahead().type !== 16) {
        const node = this.startNode();
        this.next();
        return this.finishNode(node, "TSIntrinsicKeyword");
      }
      return this.tsParseType();
    });
    this.semicolon();
    return this.finishNode(node, "TSTypeAliasDeclaration");
  }
  tsInNoContext(cb) {
    const oldContext = this.state.context;
    this.state.context = [oldContext[0]];
    try {
      return cb();
    } finally {
      this.state.context = oldContext;
    }
  }
  tsInType(cb) {
    const oldInType = this.state.inType;
    this.state.inType = true;
    try {
      return cb();
    } finally {
      this.state.inType = oldInType;
    }
  }
  tsInDisallowConditionalTypesContext(cb) {
    const oldInDisallowConditionalTypesContext = this.state.inDisallowConditionalTypesContext;
    this.state.inDisallowConditionalTypesContext = true;
    try {
      return cb();
    } finally {
      this.state.inDisallowConditionalTypesContext = oldInDisallowConditionalTypesContext;
    }
  }
  tsInAllowConditionalTypesContext(cb) {
    const oldInDisallowConditionalTypesContext = this.state.inDisallowConditionalTypesContext;
    this.state.inDisallowConditionalTypesContext = false;
    try {
      return cb();
    } finally {
      this.state.inDisallowConditionalTypesContext = oldInDisallowConditionalTypesContext;
    }
  }
  tsEatThenParseType(token) {
    return !this.match(token) ? undefined : this.tsNextThenParseType();
  }
  tsExpectThenParseType(token) {
    return this.tsDoThenParseType(() => this.expect(token));
  }
  tsNextThenParseType() {
    return this.tsDoThenParseType(() => this.next());
  }
  tsDoThenParseType(cb) {
    return this.tsInType(() => {
      cb();
      return this.tsParseType();
    });
  }
  tsParseEnumMember() {
    const node = this.startNode();
    node.id = this.match(131) ? super.parseStringLiteral(this.state.value) : this.parseIdentifier(true);
    if (this.eat(29)) {
      node.initializer = super.parseMaybeAssignAllowIn();
    }
    return this.finishNode(node, "TSEnumMember");
  }
  tsParseEnumDeclaration(node, properties = {}) {
    if (properties.const) node.const = true;
    if (properties.declare) node.declare = true;
    this.expectContextual(124);
    node.id = this.parseIdentifier();
    this.checkIdentifier(node.id, node.const ? BIND_TS_CONST_ENUM : BIND_TS_ENUM);
    this.expect(5);
    node.members = this.tsParseDelimitedList("EnumMembers", this.tsParseEnumMember.bind(this));
    this.expect(8);
    return this.finishNode(node, "TSEnumDeclaration");
  }
  tsParseModuleBlock() {
    const node = this.startNode();
    this.scope.enter(SCOPE_OTHER);
    this.expect(5);
    super.parseBlockOrModuleBlockBody(node.body = [], undefined, true, 8);
    this.scope.exit();
    return this.finishNode(node, "TSModuleBlock");
  }
  tsParseModuleOrNamespaceDeclaration(node, nested = false) {
    node.id = this.parseIdentifier();
    if (!nested) {
      this.checkIdentifier(node.id, BIND_TS_NAMESPACE);
    }
    if (this.eat(16)) {
      const inner = this.startNode();
      this.tsParseModuleOrNamespaceDeclaration(inner, true);
      node.body = inner;
    } else {
      this.scope.enter(SCOPE_TS_MODULE);
      this.prodParam.enter(PARAM);
      node.body = this.tsParseModuleBlock();
      this.prodParam.exit();
      this.scope.exit();
    }
    return this.finishNode(node, "TSModuleDeclaration");
  }
  tsParseAmbientExternalModuleDeclaration(node) {
    if (this.isContextual(110)) {
      node.global = true;
      node.id = this.parseIdentifier();
    } else if (this.match(131)) {
      node.id = super.parseStringLiteral(this.state.value);
    } else {
      this.unexpected();
    }
    if (this.match(5)) {
      this.scope.enter(SCOPE_TS_MODULE);
      this.prodParam.enter(PARAM);
      node.body = this.tsParseModuleBlock();
      this.prodParam.exit();
      this.scope.exit();
    } else {
      this.semicolon();
    }
    return this.finishNode(node, "TSModuleDeclaration");
  }
  tsParseImportEqualsDeclaration(node, isExport) {
    node.isExport = isExport || false;
    node.id = this.parseIdentifier();
    this.checkIdentifier(node.id, BIND_FLAGS_TS_IMPORT);
    this.expect(29);
    const moduleReference = this.tsParseModuleReference();
    if (node.importKind === "type" && moduleReference.type !== "TSExternalModuleReference") {
      this.raise(TSErrors.ImportAliasHasImportType, {
        at: moduleReference
      });
    }
    node.moduleReference = moduleReference;
    this.semicolon();
    return this.finishNode(node, "TSImportEqualsDeclaration");
  }
  tsIsExternalModuleReference() {
    return this.isContextual(117) && this.lookaheadCharCode() === 40;
  }
  tsParseModuleReference() {
    return this.tsIsExternalModuleReference() ? this.tsParseExternalModuleReference() : this.tsParseEntityName(false);
  }
  tsParseExternalModuleReference() {
    const node = this.startNode();
    this.expectContextual(117);
    this.expect(10);
    if (!this.match(131)) {
      this.unexpected();
    }
    node.expression = super.parseExprAtom();
    this.expect(11);
    return this.finishNode(node, "TSExternalModuleReference");
  }
  tsLookAhead(f) {
    const state = this.state.clone();
    const res = f();
    this.state = state;
    return res;
  }
  tsTryParseAndCatch(f) {
    const result = this.tryParse(abort => f() || abort());
    if (result.aborted || !result.node) return undefined;
    if (result.error) this.state = result.failState;
    return result.node;
  }
  tsTryParse(f) {
    const state = this.state.clone();
    const result = f();
    if (result !== undefined && result !== false) {
      return result;
    } else {
      this.state = state;
      return undefined;
    }
  }
  tsTryParseDeclare(nany) {
    if (this.isLineTerminator()) {
      return;
    }
    let starttype = this.state.type;
    let kind;
    if (this.isContextual(99)) {
      starttype = 74;
      kind = "let";
    }
    return this.tsInAmbientContext(() => {
      if (starttype === 68) {
        nany.declare = true;
        return super.parseFunctionStatement(nany, false, false);
      }
      if (starttype === 80) {
        nany.declare = true;
        return this.parseClass(nany, true, false);
      }
      if (starttype === 124) {
        return this.tsParseEnumDeclaration(nany, {
          declare: true
        });
      }
      if (starttype === 110) {
        return this.tsParseAmbientExternalModuleDeclaration(nany);
      }
      if (starttype === 75 || starttype === 74) {
        if (!this.match(75) || !this.isLookaheadContextual("enum")) {
          nany.declare = true;
          return this.parseVarStatement(nany, kind || this.state.value, true);
        }
        this.expect(75);
        return this.tsParseEnumDeclaration(nany, {
          const: true,
          declare: true
        });
      }
      if (starttype === 127) {
        const result = this.tsParseInterfaceDeclaration(nany, {
          declare: true
        });
        if (result) return result;
      }
      if (tokenIsIdentifier(starttype)) {
        return this.tsParseDeclaration(nany, this.state.value, true, null);
      }
    });
  }
  tsTryParseExportDeclaration() {
    return this.tsParseDeclaration(this.startNode(), this.state.value, true, null);
  }
  tsParseExpressionStatement(node, expr, decorators) {
    switch (expr.name) {
      case "declare":
        {
          const declaration = this.tsTryParseDeclare(node);
          if (declaration) {
            declaration.declare = true;
            return declaration;
          }
          break;
        }
      case "global":
        if (this.match(5)) {
          this.scope.enter(SCOPE_TS_MODULE);
          this.prodParam.enter(PARAM);
          const mod = node;
          mod.global = true;
          mod.id = expr;
          mod.body = this.tsParseModuleBlock();
          this.scope.exit();
          this.prodParam.exit();
          return this.finishNode(mod, "TSModuleDeclaration");
        }
        break;
      default:
        return this.tsParseDeclaration(node, expr.name, false, decorators);
    }
  }
  tsParseDeclaration(node, value, next, decorators) {
    switch (value) {
      case "abstract":
        if (this.tsCheckLineTerminator(next) && (this.match(80) || tokenIsIdentifier(this.state.type))) {
          return this.tsParseAbstractDeclaration(node, decorators);
        }
        break;
      case "module":
        if (this.tsCheckLineTerminator(next)) {
          if (this.match(131)) {
            return this.tsParseAmbientExternalModuleDeclaration(node);
          } else if (tokenIsIdentifier(this.state.type)) {
            return this.tsParseModuleOrNamespaceDeclaration(node);
          }
        }
        break;
      case "namespace":
        if (this.tsCheckLineTerminator(next) && tokenIsIdentifier(this.state.type)) {
          return this.tsParseModuleOrNamespaceDeclaration(node);
        }
        break;
      case "type":
        if (this.tsCheckLineTerminator(next) && tokenIsIdentifier(this.state.type)) {
          return this.tsParseTypeAliasDeclaration(node);
        }
        break;
    }
  }
  tsCheckLineTerminator(next) {
    if (next) {
      if (this.hasFollowingLineBreak()) return false;
      this.next();
      return true;
    }
    return !this.isLineTerminator();
  }
  tsTryParseGenericAsyncArrowFunction(startLoc) {
    if (!this.match(47)) {
      return undefined;
    }
    const oldMaybeInArrowParameters = this.state.maybeInArrowParameters;
    this.state.maybeInArrowParameters = true;
    const res = this.tsTryParseAndCatch(() => {
      const node = this.startNodeAt(startLoc);
      node.typeParameters = this.tsParseTypeParameters(this.tsParseConstModifier);
      super.parseFunctionParams(node);
      node.returnType = this.tsTryParseTypeOrTypePredicateAnnotation();
      this.expect(19);
      return node;
    });
    this.state.maybeInArrowParameters = oldMaybeInArrowParameters;
    if (!res) {
      return undefined;
    }
    return super.parseArrowExpression(res, null, true);
  }
  tsParseTypeArgumentsInExpression() {
    if (this.reScan_lt() !== 47) {
      return undefined;
    }
    return this.tsParseTypeArguments();
  }
  tsParseTypeArguments() {
    const node = this.startNode();
    node.params = this.tsInType(() => this.tsInNoContext(() => {
      this.expect(47);
      return this.tsParseDelimitedList("TypeParametersOrArguments", this.tsParseType.bind(this));
    }));
    if (node.params.length === 0) {
      this.raise(TSErrors.EmptyTypeArguments, {
        at: node
      });
    }
    this.expect(48);
    return this.finishNode(node, "TSTypeParameterInstantiation");
  }
  tsIsDeclarationStart() {
    return tokenIsTSDeclarationStart(this.state.type);
  }
  isExportDefaultSpecifier() {
    if (this.tsIsDeclarationStart()) return false;
    return super.isExportDefaultSpecifier();
  }
  parseAssignableListItem(flags, decorators) {
    const startLoc = this.state.startLoc;
    const modified = {};
    this.tsParseModifiers({
      allowedModifiers: ["public", "private", "protected", "override", "readonly"]
    }, modified);
    const accessibility = modified.accessibility;
    const override = modified.override;
    const readonly = modified.readonly;
    if (!(flags & 4) && (accessibility || readonly || override)) {
      this.raise(TSErrors.UnexpectedParameterModifier, {
        at: startLoc
      });
    }
    const left = this.parseMaybeDefault();
    this.parseAssignableListItemTypes(left, flags);
    const elt = this.parseMaybeDefault(left.loc.start, left);
    if (accessibility || readonly || override) {
      const pp = this.startNodeAt(startLoc);
      if (decorators.length) {
        pp.decorators = decorators;
      }
      if (accessibility) pp.accessibility = accessibility;
      if (readonly) pp.readonly = readonly;
      if (override) pp.override = override;
      if (elt.type !== "Identifier" && elt.type !== "AssignmentPattern") {
        this.raise(TSErrors.UnsupportedParameterPropertyKind, {
          at: pp
        });
      }
      pp.parameter = elt;
      return this.finishNode(pp, "TSParameterProperty");
    }
    if (decorators.length) {
      left.decorators = decorators;
    }
    return elt;
  }
  isSimpleParameter(node) {
    return node.type === "TSParameterProperty" && super.isSimpleParameter(node.parameter) || super.isSimpleParameter(node);
  }
  tsDisallowOptionalPattern(node) {
    for (const param of node.params) {
      if (param.type !== "Identifier" && param.optional && !this.state.isAmbientContext) {
        this.raise(TSErrors.PatternIsOptional, {
          at: param
        });
      }
    }
  }
  setArrowFunctionParameters(node, params, trailingCommaLoc) {
    super.setArrowFunctionParameters(node, params, trailingCommaLoc);
    this.tsDisallowOptionalPattern(node);
  }
  parseFunctionBodyAndFinish(node, type, isMethod = false) {
    if (this.match(14)) {
      node.returnType = this.tsParseTypeOrTypePredicateAnnotation(14);
    }
    const bodilessType = type === "FunctionDeclaration" ? "TSDeclareFunction" : type === "ClassMethod" || type === "ClassPrivateMethod" ? "TSDeclareMethod" : undefined;
    if (bodilessType && !this.match(5) && this.isLineTerminator()) {
      return this.finishNode(node, bodilessType);
    }
    if (bodilessType === "TSDeclareFunction" && this.state.isAmbientContext) {
      this.raise(TSErrors.DeclareFunctionHasImplementation, {
        at: node
      });
      if (node.declare) {
        return super.parseFunctionBodyAndFinish(node, bodilessType, isMethod);
      }
    }
    this.tsDisallowOptionalPattern(node);
    return super.parseFunctionBodyAndFinish(node, type, isMethod);
  }
  registerFunctionStatementId(node) {
    if (!node.body && node.id) {
      this.checkIdentifier(node.id, BIND_TS_AMBIENT);
    } else {
      super.registerFunctionStatementId(node);
    }
  }
  tsCheckForInvalidTypeCasts(items) {
    items.forEach(node => {
      if ((node == null ? void 0 : node.type) === "TSTypeCastExpression") {
        this.raise(TSErrors.UnexpectedTypeAnnotation, {
          at: node.typeAnnotation
        });
      }
    });
  }
  toReferencedList(exprList, isInParens) {
    this.tsCheckForInvalidTypeCasts(exprList);
    return exprList;
  }
  parseArrayLike(close, canBePattern, isTuple, refExpressionErrors) {
    const node = super.parseArrayLike(close, canBePattern, isTuple, refExpressionErrors);
    if (node.type === "ArrayExpression") {
      this.tsCheckForInvalidTypeCasts(node.elements);
    }
    return node;
  }
  parseSubscript(base, startLoc, noCalls, state) {
    if (!this.hasPrecedingLineBreak() && this.match(35)) {
      this.state.canStartJSXElement = false;
      this.next();
      const nonNullExpression = this.startNodeAt(startLoc);
      nonNullExpression.expression = base;
      return this.finishNode(nonNullExpression, "TSNonNullExpression");
    }
    let isOptionalCall = false;
    if (this.match(18) && this.lookaheadCharCode() === 60) {
      if (noCalls) {
        state.stop = true;
        return base;
      }
      state.optionalChainMember = isOptionalCall = true;
      this.next();
    }
    if (this.match(47) || this.match(51)) {
      let missingParenErrorLoc;
      const result = this.tsTryParseAndCatch(() => {
        if (!noCalls && this.atPossibleAsyncArrow(base)) {
          const asyncArrowFn = this.tsTryParseGenericAsyncArrowFunction(startLoc);
          if (asyncArrowFn) {
            return asyncArrowFn;
          }
        }
        const typeArguments = this.tsParseTypeArgumentsInExpression();
        if (!typeArguments) return;
        if (isOptionalCall && !this.match(10)) {
          missingParenErrorLoc = this.state.curPosition();
          return;
        }
        if (tokenIsTemplate(this.state.type)) {
          const result = super.parseTaggedTemplateExpression(base, startLoc, state);
          result.typeParameters = typeArguments;
          return result;
        }
        if (!noCalls && this.eat(10)) {
          const node = this.startNodeAt(startLoc);
          node.callee = base;
          node.arguments = this.parseCallExpressionArguments(11, false);
          this.tsCheckForInvalidTypeCasts(node.arguments);
          node.typeParameters = typeArguments;
          if (state.optionalChainMember) {
            node.optional = isOptionalCall;
          }
          return this.finishCallExpression(node, state.optionalChainMember);
        }
        const tokenType = this.state.type;
        if (tokenType === 48 || tokenType === 52 || tokenType !== 10 && tokenCanStartExpression(tokenType) && !this.hasPrecedingLineBreak()) {
          return;
        }
        const node = this.startNodeAt(startLoc);
        node.expression = base;
        node.typeParameters = typeArguments;
        return this.finishNode(node, "TSInstantiationExpression");
      });
      if (missingParenErrorLoc) {
        this.unexpected(missingParenErrorLoc, 10);
      }
      if (result) {
        if (result.type === "TSInstantiationExpression" && (this.match(16) || this.match(18) && this.lookaheadCharCode() !== 40)) {
          this.raise(TSErrors.InvalidPropertyAccessAfterInstantiationExpression, {
            at: this.state.startLoc
          });
        }
        return result;
      }
    }
    return super.parseSubscript(base, startLoc, noCalls, state);
  }
  parseNewCallee(node) {
    var _callee$extra;
    super.parseNewCallee(node);
    const {
      callee
    } = node;
    if (callee.type === "TSInstantiationExpression" && !((_callee$extra = callee.extra) != null && _callee$extra.parenthesized)) {
      node.typeParameters = callee.typeParameters;
      node.callee = callee.expression;
    }
  }
  parseExprOp(left, leftStartLoc, minPrec) {
    let isSatisfies;
    if (tokenOperatorPrecedence(58) > minPrec && !this.hasPrecedingLineBreak() && (this.isContextual(93) || (isSatisfies = this.isContextual(118)))) {
      const node = this.startNodeAt(leftStartLoc);
      node.expression = left;
      node.typeAnnotation = this.tsInType(() => {
        this.next();
        if (this.match(75)) {
          if (isSatisfies) {
            this.raise(Errors.UnexpectedKeyword, {
              at: this.state.startLoc,
              keyword: "const"
            });
          }
          return this.tsParseTypeReference();
        }
        return this.tsParseType();
      });
      this.finishNode(node, isSatisfies ? "TSSatisfiesExpression" : "TSAsExpression");
      this.reScan_lt_gt();
      return this.parseExprOp(node, leftStartLoc, minPrec);
    }
    return super.parseExprOp(left, leftStartLoc, minPrec);
  }
  checkReservedWord(word, startLoc, checkKeywords, isBinding) {
    if (!this.state.isAmbientContext) {
      super.checkReservedWord(word, startLoc, checkKeywords, isBinding);
    }
  }
  checkImportReflection(node) {
    super.checkImportReflection(node);
    if (node.module && node.importKind !== "value") {
      this.raise(TSErrors.ImportReflectionHasImportType, {
        at: node.specifiers[0].loc.start
      });
    }
  }
  checkDuplicateExports() {}
  parseImport(node) {
    node.importKind = "value";
    if (tokenIsIdentifier(this.state.type) || this.match(55) || this.match(5)) {
      let ahead = this.lookahead();
      if (this.isContextual(128) && ahead.type !== 12 && ahead.type !== 97 && ahead.type !== 29) {
        node.importKind = "type";
        this.next();
        ahead = this.lookahead();
      }
      if (tokenIsIdentifier(this.state.type) && ahead.type === 29) {
        return this.tsParseImportEqualsDeclaration(node);
      }
    }
    const importNode = super.parseImport(node);
    if (importNode.importKind === "type" && importNode.specifiers.length > 1 && importNode.specifiers[0].type === "ImportDefaultSpecifier") {
      this.raise(TSErrors.TypeImportCannotSpecifyDefaultAndNamed, {
        at: importNode
      });
    }
    return importNode;
  }
  parseExport(node, decorators) {
    if (this.match(83)) {
      this.next();
      if (this.isContextual(128) && this.lookaheadCharCode() !== 61) {
        node.importKind = "type";
        this.next();
      } else {
        node.importKind = "value";
      }
      return this.tsParseImportEqualsDeclaration(node, true);
    } else if (this.eat(29)) {
      const assign = node;
      assign.expression = super.parseExpression();
      this.semicolon();
      return this.finishNode(assign, "TSExportAssignment");
    } else if (this.eatContextual(93)) {
      const decl = node;
      this.expectContextual(126);
      decl.id = this.parseIdentifier();
      this.semicolon();
      return this.finishNode(decl, "TSNamespaceExportDeclaration");
    } else {
      node.exportKind = "value";
      if (this.isContextual(128)) {
        const ch = this.lookaheadCharCode();
        if (ch === 123 || ch === 42) {
          this.next();
          node.exportKind = "type";
        }
      }
      return super.parseExport(node, decorators);
    }
  }
  isAbstractClass() {
    return this.isContextual(122) && this.lookahead().type === 80;
  }
  parseExportDefaultExpression() {
    if (this.isAbstractClass()) {
      const cls = this.startNode();
      this.next();
      cls.abstract = true;
      return this.parseClass(cls, true, true);
    }
    if (this.match(127)) {
      const result = this.tsParseInterfaceDeclaration(this.startNode());
      if (result) return result;
    }
    return super.parseExportDefaultExpression();
  }
  parseVarStatement(node, kind, allowMissingInitializer = false) {
    const {
      isAmbientContext
    } = this.state;
    const declaration = super.parseVarStatement(node, kind, allowMissingInitializer || isAmbientContext);
    if (!isAmbientContext) return declaration;
    for (const {
      id,
      init
    } of declaration.declarations) {
      if (!init) continue;
      if (kind !== "const" || !!id.typeAnnotation) {
        this.raise(TSErrors.InitializerNotAllowedInAmbientContext, {
          at: init
        });
      } else if (!isValidAmbientConstInitializer(init, this.hasPlugin("estree"))) {
        this.raise(TSErrors.ConstInitiailizerMustBeStringOrNumericLiteralOrLiteralEnumReference, {
          at: init
        });
      }
    }
    return declaration;
  }
  parseStatementContent(flags, decorators) {
    if (this.match(75) && this.isLookaheadContextual("enum")) {
      const node = this.startNode();
      this.expect(75);
      return this.tsParseEnumDeclaration(node, {
        const: true
      });
    }
    if (this.isContextual(124)) {
      return this.tsParseEnumDeclaration(this.startNode());
    }
    if (this.isContextual(127)) {
      const result = this.tsParseInterfaceDeclaration(this.startNode());
      if (result) return result;
    }
    return super.parseStatementContent(flags, decorators);
  }
  parseAccessModifier() {
    return this.tsParseModifier(["public", "protected", "private"]);
  }
  tsHasSomeModifiers(member, modifiers) {
    return modifiers.some(modifier => {
      if (tsIsAccessModifier(modifier)) {
        return member.accessibility === modifier;
      }
      return !!member[modifier];
    });
  }
  tsIsStartOfStaticBlocks() {
    return this.isContextual(104) && this.lookaheadCharCode() === 123;
  }
  parseClassMember(classBody, member, state) {
    const modifiers = ["declare", "private", "public", "protected", "override", "abstract", "readonly", "static"];
    this.tsParseModifiers({
      allowedModifiers: modifiers,
      disallowedModifiers: ["in", "out"],
      stopOnStartOfClassStaticBlock: true,
      errorTemplate: TSErrors.InvalidModifierOnTypeParameterPositions
    }, member);
    const callParseClassMemberWithIsStatic = () => {
      if (this.tsIsStartOfStaticBlocks()) {
        this.next();
        this.next();
        if (this.tsHasSomeModifiers(member, modifiers)) {
          this.raise(TSErrors.StaticBlockCannotHaveModifier, {
            at: this.state.curPosition()
          });
        }
        super.parseClassStaticBlock(classBody, member);
      } else {
        this.parseClassMemberWithIsStatic(classBody, member, state, !!member.static);
      }
    };
    if (member.declare) {
      this.tsInAmbientContext(callParseClassMemberWithIsStatic);
    } else {
      callParseClassMemberWithIsStatic();
    }
  }
  parseClassMemberWithIsStatic(classBody, member, state, isStatic) {
    const idx = this.tsTryParseIndexSignature(member);
    if (idx) {
      classBody.body.push(idx);
      if (member.abstract) {
        this.raise(TSErrors.IndexSignatureHasAbstract, {
          at: member
        });
      }
      if (member.accessibility) {
        this.raise(TSErrors.IndexSignatureHasAccessibility, {
          at: member,
          modifier: member.accessibility
        });
      }
      if (member.declare) {
        this.raise(TSErrors.IndexSignatureHasDeclare, {
          at: member
        });
      }
      if (member.override) {
        this.raise(TSErrors.IndexSignatureHasOverride, {
          at: member
        });
      }
      return;
    }
    if (!this.state.inAbstractClass && member.abstract) {
      this.raise(TSErrors.NonAbstractClassHasAbstractMethod, {
        at: member
      });
    }
    if (member.override) {
      if (!state.hadSuperClass) {
        this.raise(TSErrors.OverrideNotInSubClass, {
          at: member
        });
      }
    }
    super.parseClassMemberWithIsStatic(classBody, member, state, isStatic);
  }
  parsePostMemberNameModifiers(methodOrProp) {
    const optional = this.eat(17);
    if (optional) methodOrProp.optional = true;
    if (methodOrProp.readonly && this.match(10)) {
      this.raise(TSErrors.ClassMethodHasReadonly, {
        at: methodOrProp
      });
    }
    if (methodOrProp.declare && this.match(10)) {
      this.raise(TSErrors.ClassMethodHasDeclare, {
        at: methodOrProp
      });
    }
  }
  parseExpressionStatement(node, expr, decorators) {
    const decl = expr.type === "Identifier" ? this.tsParseExpressionStatement(node, expr, decorators) : undefined;
    return decl || super.parseExpressionStatement(node, expr, decorators);
  }
  shouldParseExportDeclaration() {
    if (this.tsIsDeclarationStart()) return true;
    return super.shouldParseExportDeclaration();
  }
  parseConditional(expr, startLoc, refExpressionErrors) {
    if (!this.state.maybeInArrowParameters || !this.match(17)) {
      return super.parseConditional(expr, startLoc, refExpressionErrors);
    }
    const result = this.tryParse(() => super.parseConditional(expr, startLoc));
    if (!result.node) {
      if (result.error) {
        super.setOptionalParametersError(refExpressionErrors, result.error);
      }
      return expr;
    }
    if (result.error) this.state = result.failState;
    return result.node;
  }
  parseParenItem(node, startLoc) {
    node = super.parseParenItem(node, startLoc);
    if (this.eat(17)) {
      node.optional = true;
      this.resetEndLocation(node);
    }
    if (this.match(14)) {
      const typeCastNode = this.startNodeAt(startLoc);
      typeCastNode.expression = node;
      typeCastNode.typeAnnotation = this.tsParseTypeAnnotation();
      return this.finishNode(typeCastNode, "TSTypeCastExpression");
    }
    return node;
  }
  parseExportDeclaration(node) {
    if (!this.state.isAmbientContext && this.isContextual(123)) {
      return this.tsInAmbientContext(() => this.parseExportDeclaration(node));
    }
    const startLoc = this.state.startLoc;
    const isDeclare = this.eatContextual(123);
    if (isDeclare && (this.isContextual(123) || !this.shouldParseExportDeclaration())) {
      throw this.raise(TSErrors.ExpectedAmbientAfterExportDeclare, {
        at: this.state.startLoc
      });
    }
    const isIdentifier = tokenIsIdentifier(this.state.type);
    const declaration = isIdentifier && this.tsTryParseExportDeclaration() || super.parseExportDeclaration(node);
    if (!declaration) return null;
    if (declaration.type === "TSInterfaceDeclaration" || declaration.type === "TSTypeAliasDeclaration" || isDeclare) {
      node.exportKind = "type";
    }
    if (isDeclare) {
      this.resetStartLocation(declaration, startLoc);
      declaration.declare = true;
    }
    return declaration;
  }
  parseClassId(node, isStatement, optionalId, bindingType) {
    if ((!isStatement || optionalId) && this.isContextual(111)) {
      return;
    }
    super.parseClassId(node, isStatement, optionalId, node.declare ? BIND_TS_AMBIENT : BIND_CLASS);
    const typeParameters = this.tsTryParseTypeParameters(this.tsParseInOutConstModifiers);
    if (typeParameters) node.typeParameters = typeParameters;
  }
  parseClassPropertyAnnotation(node) {
    if (!node.optional) {
      if (this.eat(35)) {
        node.definite = true;
      } else if (this.eat(17)) {
        node.optional = true;
      }
    }
    const type = this.tsTryParseTypeAnnotation();
    if (type) node.typeAnnotation = type;
  }
  parseClassProperty(node) {
    this.parseClassPropertyAnnotation(node);
    if (this.state.isAmbientContext && !(node.readonly && !node.typeAnnotation) && this.match(29)) {
      this.raise(TSErrors.DeclareClassFieldHasInitializer, {
        at: this.state.startLoc
      });
    }
    if (node.abstract && this.match(29)) {
      const {
        key
      } = node;
      this.raise(TSErrors.AbstractPropertyHasInitializer, {
        at: this.state.startLoc,
        propertyName: key.type === "Identifier" && !node.computed ? key.name : `[${this.input.slice(key.start, key.end)}]`
      });
    }
    return super.parseClassProperty(node);
  }
  parseClassPrivateProperty(node) {
    if (node.abstract) {
      this.raise(TSErrors.PrivateElementHasAbstract, {
        at: node
      });
    }
    if (node.accessibility) {
      this.raise(TSErrors.PrivateElementHasAccessibility, {
        at: node,
        modifier: node.accessibility
      });
    }
    this.parseClassPropertyAnnotation(node);
    return super.parseClassPrivateProperty(node);
  }
  parseClassAccessorProperty(node) {
    this.parseClassPropertyAnnotation(node);
    if (node.optional) {
      this.raise(TSErrors.AccessorCannotBeOptional, {
        at: node
      });
    }
    return super.parseClassAccessorProperty(node);
  }
  pushClassMethod(classBody, method, isGenerator, isAsync, isConstructor, allowsDirectSuper) {
    const typeParameters = this.tsTryParseTypeParameters(this.tsParseConstModifier);
    if (typeParameters && isConstructor) {
      this.raise(TSErrors.ConstructorHasTypeParameters, {
        at: typeParameters
      });
    }
    const {
      declare = false,
      kind
    } = method;
    if (declare && (kind === "get" || kind === "set")) {
      this.raise(TSErrors.DeclareAccessor, {
        at: method,
        kind
      });
    }
    if (typeParameters) method.typeParameters = typeParameters;
    super.pushClassMethod(classBody, method, isGenerator, isAsync, isConstructor, allowsDirectSuper);
  }
  pushClassPrivateMethod(classBody, method, isGenerator, isAsync) {
    const typeParameters = this.tsTryParseTypeParameters(this.tsParseConstModifier);
    if (typeParameters) method.typeParameters = typeParameters;
    super.pushClassPrivateMethod(classBody, method, isGenerator, isAsync);
  }
  declareClassPrivateMethodInScope(node, kind) {
    if (node.type === "TSDeclareMethod") return;
    if (node.type === "MethodDefinition" && !node.value.body) return;
    super.declareClassPrivateMethodInScope(node, kind);
  }
  parseClassSuper(node) {
    super.parseClassSuper(node);
    if (node.superClass && (this.match(47) || this.match(51))) {
      node.superTypeParameters = this.tsParseTypeArgumentsInExpression();
    }
    if (this.eatContextual(111)) {
      node.implements = this.tsParseHeritageClause("implements");
    }
  }
  parseObjPropValue(prop, startLoc, isGenerator, isAsync, isPattern, isAccessor, refExpressionErrors) {
    const typeParameters = this.tsTryParseTypeParameters(this.tsParseConstModifier);
    if (typeParameters) prop.typeParameters = typeParameters;
    return super.parseObjPropValue(prop, startLoc, isGenerator, isAsync, isPattern, isAccessor, refExpressionErrors);
  }
  parseFunctionParams(node, isConstructor) {
    const typeParameters = this.tsTryParseTypeParameters(this.tsParseConstModifier);
    if (typeParameters) node.typeParameters = typeParameters;
    super.parseFunctionParams(node, isConstructor);
  }
  parseVarId(decl, kind) {
    super.parseVarId(decl, kind);
    if (decl.id.type === "Identifier" && !this.hasPrecedingLineBreak() && this.eat(35)) {
      decl.definite = true;
    }
    const type = this.tsTryParseTypeAnnotation();
    if (type) {
      decl.id.typeAnnotation = type;
      this.resetEndLocation(decl.id);
    }
  }
  parseAsyncArrowFromCallExpression(node, call) {
    if (this.match(14)) {
      node.returnType = this.tsParseTypeAnnotation();
    }
    return super.parseAsyncArrowFromCallExpression(node, call);
  }
  parseMaybeAssign(refExpressionErrors, afterLeftParse) {
    var _jsx, _jsx2, _typeCast, _jsx3, _typeCast2, _jsx4, _typeCast3;
    let state;
    let jsx;
    let typeCast;
    if (this.hasPlugin("jsx") && (this.match(140) || this.match(47))) {
      state = this.state.clone();
      jsx = this.tryParse(() => super.parseMaybeAssign(refExpressionErrors, afterLeftParse), state);
      if (!jsx.error) return jsx.node;
      const {
        context
      } = this.state;
      const currentContext = context[context.length - 1];
      if (currentContext === types$1.j_oTag || currentContext === types$1.j_expr) {
        context.pop();
      }
    }
    if (!((_jsx = jsx) != null && _jsx.error) && !this.match(47)) {
      return super.parseMaybeAssign(refExpressionErrors, afterLeftParse);
    }
    if (!state || state === this.state) state = this.state.clone();
    let typeParameters;
    const arrow = this.tryParse(abort => {
      var _expr$extra, _typeParameters;
      typeParameters = this.tsParseTypeParameters(this.tsParseConstModifier);
      const expr = super.parseMaybeAssign(refExpressionErrors, afterLeftParse);
      if (expr.type !== "ArrowFunctionExpression" || (_expr$extra = expr.extra) != null && _expr$extra.parenthesized) {
        abort();
      }
      if (((_typeParameters = typeParameters) == null ? void 0 : _typeParameters.params.length) !== 0) {
        this.resetStartLocationFromNode(expr, typeParameters);
      }
      expr.typeParameters = typeParameters;
      return expr;
    }, state);
    if (!arrow.error && !arrow.aborted) {
      if (typeParameters) this.reportReservedArrowTypeParam(typeParameters);
      return arrow.node;
    }
    if (!jsx) {
      assert$1(!this.hasPlugin("jsx"));
      typeCast = this.tryParse(() => super.parseMaybeAssign(refExpressionErrors, afterLeftParse), state);
      if (!typeCast.error) return typeCast.node;
    }
    if ((_jsx2 = jsx) != null && _jsx2.node) {
      this.state = jsx.failState;
      return jsx.node;
    }
    if (arrow.node) {
      this.state = arrow.failState;
      if (typeParameters) this.reportReservedArrowTypeParam(typeParameters);
      return arrow.node;
    }
    if ((_typeCast = typeCast) != null && _typeCast.node) {
      this.state = typeCast.failState;
      return typeCast.node;
    }
    if ((_jsx3 = jsx) != null && _jsx3.thrown) throw jsx.error;
    if (arrow.thrown) throw arrow.error;
    if ((_typeCast2 = typeCast) != null && _typeCast2.thrown) throw typeCast.error;
    throw ((_jsx4 = jsx) == null ? void 0 : _jsx4.error) || arrow.error || ((_typeCast3 = typeCast) == null ? void 0 : _typeCast3.error);
  }
  reportReservedArrowTypeParam(node) {
    var _node$extra;
    if (node.params.length === 1 && !node.params[0].constraint && !((_node$extra = node.extra) != null && _node$extra.trailingComma) && this.getPluginOption("typescript", "disallowAmbiguousJSXLike")) {
      this.raise(TSErrors.ReservedArrowTypeParam, {
        at: node
      });
    }
  }
  parseMaybeUnary(refExpressionErrors, sawUnary) {
    if (!this.hasPlugin("jsx") && this.match(47)) {
      return this.tsParseTypeAssertion();
    } else {
      return super.parseMaybeUnary(refExpressionErrors, sawUnary);
    }
  }
  parseArrow(node) {
    if (this.match(14)) {
      const result = this.tryParse(abort => {
        const returnType = this.tsParseTypeOrTypePredicateAnnotation(14);
        if (this.canInsertSemicolon() || !this.match(19)) abort();
        return returnType;
      });
      if (result.aborted) return;
      if (!result.thrown) {
        if (result.error) this.state = result.failState;
        node.returnType = result.node;
      }
    }
    return super.parseArrow(node);
  }
  parseAssignableListItemTypes(param, flags) {
    if (!(flags & 2)) return param;
    if (this.eat(17)) {
      param.optional = true;
    }
    const type = this.tsTryParseTypeAnnotation();
    if (type) param.typeAnnotation = type;
    this.resetEndLocation(param);
    return param;
  }
  isAssignable(node, isBinding) {
    switch (node.type) {
      case "TSTypeCastExpression":
        return this.isAssignable(node.expression, isBinding);
      case "TSParameterProperty":
        return true;
      default:
        return super.isAssignable(node, isBinding);
    }
  }
  toAssignable(node, isLHS = false) {
    switch (node.type) {
      case "ParenthesizedExpression":
        this.toAssignableParenthesizedExpression(node, isLHS);
        break;
      case "TSAsExpression":
      case "TSSatisfiesExpression":
      case "TSNonNullExpression":
      case "TSTypeAssertion":
        if (isLHS) {
          this.expressionScope.recordArrowParameterBindingError(TSErrors.UnexpectedTypeCastInParameter, {
            at: node
          });
        } else {
          this.raise(TSErrors.UnexpectedTypeCastInParameter, {
            at: node
          });
        }
        this.toAssignable(node.expression, isLHS);
        break;
      case "AssignmentExpression":
        if (!isLHS && node.left.type === "TSTypeCastExpression") {
          node.left = this.typeCastToParameter(node.left);
        }
      default:
        super.toAssignable(node, isLHS);
    }
  }
  toAssignableParenthesizedExpression(node, isLHS) {
    switch (node.expression.type) {
      case "TSAsExpression":
      case "TSSatisfiesExpression":
      case "TSNonNullExpression":
      case "TSTypeAssertion":
      case "ParenthesizedExpression":
        this.toAssignable(node.expression, isLHS);
        break;
      default:
        super.toAssignable(node, isLHS);
    }
  }
  checkToRestConversion(node, allowPattern) {
    switch (node.type) {
      case "TSAsExpression":
      case "TSSatisfiesExpression":
      case "TSTypeAssertion":
      case "TSNonNullExpression":
        this.checkToRestConversion(node.expression, false);
        break;
      default:
        super.checkToRestConversion(node, allowPattern);
    }
  }
  isValidLVal(type, isUnparenthesizedInAssign, binding) {
    return getOwn({
      TSTypeCastExpression: true,
      TSParameterProperty: "parameter",
      TSNonNullExpression: "expression",
      TSAsExpression: (binding !== BIND_NONE || !isUnparenthesizedInAssign) && ["expression", true],
      TSSatisfiesExpression: (binding !== BIND_NONE || !isUnparenthesizedInAssign) && ["expression", true],
      TSTypeAssertion: (binding !== BIND_NONE || !isUnparenthesizedInAssign) && ["expression", true]
    }, type) || super.isValidLVal(type, isUnparenthesizedInAssign, binding);
  }
  parseBindingAtom() {
    switch (this.state.type) {
      case 78:
        return this.parseIdentifier(true);
      default:
        return super.parseBindingAtom();
    }
  }
  parseMaybeDecoratorArguments(expr) {
    if (this.match(47) || this.match(51)) {
      const typeArguments = this.tsParseTypeArgumentsInExpression();
      if (this.match(10)) {
        const call = super.parseMaybeDecoratorArguments(expr);
        call.typeParameters = typeArguments;
        return call;
      }
      this.unexpected(null, 10);
    }
    return super.parseMaybeDecoratorArguments(expr);
  }
  checkCommaAfterRest(close) {
    if (this.state.isAmbientContext && this.match(12) && this.lookaheadCharCode() === close) {
      this.next();
      return false;
    } else {
      return super.checkCommaAfterRest(close);
    }
  }
  isClassMethod() {
    return this.match(47) || super.isClassMethod();
  }
  isClassProperty() {
    return this.match(35) || this.match(14) || super.isClassProperty();
  }
  parseMaybeDefault(startLoc, left) {
    const node = super.parseMaybeDefault(startLoc, left);
    if (node.type === "AssignmentPattern" && node.typeAnnotation && node.right.start < node.typeAnnotation.start) {
      this.raise(TSErrors.TypeAnnotationAfterAssign, {
        at: node.typeAnnotation
      });
    }
    return node;
  }
  getTokenFromCode(code) {
    if (this.state.inType) {
      if (code === 62) {
        this.finishOp(48, 1);
        return;
      }
      if (code === 60) {
        this.finishOp(47, 1);
        return;
      }
    }
    super.getTokenFromCode(code);
  }
  reScan_lt_gt() {
    const {
      type
    } = this.state;
    if (type === 47) {
      this.state.pos -= 1;
      this.readToken_lt();
    } else if (type === 48) {
      this.state.pos -= 1;
      this.readToken_gt();
    }
  }
  reScan_lt() {
    const {
      type
    } = this.state;
    if (type === 51) {
      this.state.pos -= 2;
      this.finishOp(47, 1);
      return 47;
    }
    return type;
  }
  toAssignableList(exprList, trailingCommaLoc, isLHS) {
    for (let i = 0; i < exprList.length; i++) {
      const expr = exprList[i];
      if ((expr == null ? void 0 : expr.type) === "TSTypeCastExpression") {
        exprList[i] = this.typeCastToParameter(expr);
      }
    }
    super.toAssignableList(exprList, trailingCommaLoc, isLHS);
  }
  typeCastToParameter(node) {
    node.expression.typeAnnotation = node.typeAnnotation;
    this.resetEndLocation(node.expression, node.typeAnnotation.loc.end);
    return node.expression;
  }
  shouldParseArrow(params) {
    if (this.match(14)) {
      return params.every(expr => this.isAssignable(expr, true));
    }
    return super.shouldParseArrow(params);
  }
  shouldParseAsyncArrow() {
    return this.match(14) || super.shouldParseAsyncArrow();
  }
  canHaveLeadingDecorator() {
    return super.canHaveLeadingDecorator() || this.isAbstractClass();
  }
  jsxParseOpeningElementAfterName(node) {
    if (this.match(47) || this.match(51)) {
      const typeArguments = this.tsTryParseAndCatch(() => this.tsParseTypeArgumentsInExpression());
      if (typeArguments) node.typeParameters = typeArguments;
    }
    return super.jsxParseOpeningElementAfterName(node);
  }
  getGetterSetterExpectedParamCount(method) {
    const baseCount = super.getGetterSetterExpectedParamCount(method);
    const params = this.getObjectOrClassMethodParams(method);
    const firstParam = params[0];
    const hasContextParam = firstParam && this.isThisParam(firstParam);
    return hasContextParam ? baseCount + 1 : baseCount;
  }
  parseCatchClauseParam() {
    const param = super.parseCatchClauseParam();
    const type = this.tsTryParseTypeAnnotation();
    if (type) {
      param.typeAnnotation = type;
      this.resetEndLocation(param);
    }
    return param;
  }
  tsInAmbientContext(cb) {
    const oldIsAmbientContext = this.state.isAmbientContext;
    this.state.isAmbientContext = true;
    try {
      return cb();
    } finally {
      this.state.isAmbientContext = oldIsAmbientContext;
    }
  }
  parseClass(node, isStatement, optionalId) {
    const oldInAbstractClass = this.state.inAbstractClass;
    this.state.inAbstractClass = !!node.abstract;
    try {
      return super.parseClass(node, isStatement, optionalId);
    } finally {
      this.state.inAbstractClass = oldInAbstractClass;
    }
  }
  tsParseAbstractDeclaration(node, decorators) {
    if (this.match(80)) {
      node.abstract = true;
      return this.maybeTakeDecorators(decorators, this.parseClass(node, true, false));
    } else if (this.isContextual(127)) {
      if (!this.hasFollowingLineBreak()) {
        node.abstract = true;
        this.raise(TSErrors.NonClassMethodPropertyHasAbstractModifer, {
          at: node
        });
        return this.tsParseInterfaceDeclaration(node);
      }
    } else {
      this.unexpected(null, 80);
    }
  }
  parseMethod(node, isGenerator, isAsync, isConstructor, allowDirectSuper, type, inClassScope) {
    const method = super.parseMethod(node, isGenerator, isAsync, isConstructor, allowDirectSuper, type, inClassScope);
    if (method.abstract) {
      const hasBody = this.hasPlugin("estree") ? !!method.value.body : !!method.body;
      if (hasBody) {
        const {
          key
        } = method;
        this.raise(TSErrors.AbstractMethodHasImplementation, {
          at: method,
          methodName: key.type === "Identifier" && !method.computed ? key.name : `[${this.input.slice(key.start, key.end)}]`
        });
      }
    }
    return method;
  }
  tsParseTypeParameterName() {
    const typeName = this.parseIdentifier();
    return typeName.name;
  }
  shouldParseAsAmbientContext() {
    return !!this.getPluginOption("typescript", "dts");
  }
  parse() {
    if (this.shouldParseAsAmbientContext()) {
      this.state.isAmbientContext = true;
    }
    return super.parse();
  }
  getExpression() {
    if (this.shouldParseAsAmbientContext()) {
      this.state.isAmbientContext = true;
    }
    return super.getExpression();
  }
  parseExportSpecifier(node, isString, isInTypeExport, isMaybeTypeOnly) {
    if (!isString && isMaybeTypeOnly) {
      this.parseTypeOnlyImportExportSpecifier(node, false, isInTypeExport);
      return this.finishNode(node, "ExportSpecifier");
    }
    node.exportKind = "value";
    return super.parseExportSpecifier(node, isString, isInTypeExport, isMaybeTypeOnly);
  }
  parseImportSpecifier(specifier, importedIsString, isInTypeOnlyImport, isMaybeTypeOnly, bindingType) {
    if (!importedIsString && isMaybeTypeOnly) {
      this.parseTypeOnlyImportExportSpecifier(specifier, true, isInTypeOnlyImport);
      return this.finishNode(specifier, "ImportSpecifier");
    }
    specifier.importKind = "value";
    return super.parseImportSpecifier(specifier, importedIsString, isInTypeOnlyImport, isMaybeTypeOnly, isInTypeOnlyImport ? BIND_TS_TYPE_IMPORT : BIND_FLAGS_TS_IMPORT);
  }
  parseTypeOnlyImportExportSpecifier(node, isImport, isInTypeOnlyImportExport) {
    const leftOfAsKey = isImport ? "imported" : "local";
    const rightOfAsKey = isImport ? "local" : "exported";
    let leftOfAs = node[leftOfAsKey];
    let rightOfAs;
    let hasTypeSpecifier = false;
    let canParseAsKeyword = true;
    const loc = leftOfAs.loc.start;
    if (this.isContextual(93)) {
      const firstAs = this.parseIdentifier();
      if (this.isContextual(93)) {
        const secondAs = this.parseIdentifier();
        if (tokenIsKeywordOrIdentifier(this.state.type)) {
          hasTypeSpecifier = true;
          leftOfAs = firstAs;
          rightOfAs = isImport ? this.parseIdentifier() : this.parseModuleExportName();
          canParseAsKeyword = false;
        } else {
          rightOfAs = secondAs;
          canParseAsKeyword = false;
        }
      } else if (tokenIsKeywordOrIdentifier(this.state.type)) {
        canParseAsKeyword = false;
        rightOfAs = isImport ? this.parseIdentifier() : this.parseModuleExportName();
      } else {
        hasTypeSpecifier = true;
        leftOfAs = firstAs;
      }
    } else if (tokenIsKeywordOrIdentifier(this.state.type)) {
      hasTypeSpecifier = true;
      if (isImport) {
        leftOfAs = this.parseIdentifier(true);
        if (!this.isContextual(93)) {
          this.checkReservedWord(leftOfAs.name, leftOfAs.loc.start, true, true);
        }
      } else {
        leftOfAs = this.parseModuleExportName();
      }
    }
    if (hasTypeSpecifier && isInTypeOnlyImportExport) {
      this.raise(isImport ? TSErrors.TypeModifierIsUsedInTypeImports : TSErrors.TypeModifierIsUsedInTypeExports, {
        at: loc
      });
    }
    node[leftOfAsKey] = leftOfAs;
    node[rightOfAsKey] = rightOfAs;
    const kindKey = isImport ? "importKind" : "exportKind";
    node[kindKey] = hasTypeSpecifier ? "type" : "value";
    if (canParseAsKeyword && this.eatContextual(93)) {
      node[rightOfAsKey] = isImport ? this.parseIdentifier() : this.parseModuleExportName();
    }
    if (!node[rightOfAsKey]) {
      node[rightOfAsKey] = cloneIdentifier(node[leftOfAsKey]);
    }
    if (isImport) {
      this.checkIdentifier(node[rightOfAsKey], hasTypeSpecifier ? BIND_TS_TYPE_IMPORT : BIND_FLAGS_TS_IMPORT);
    }
  }
};
function isPossiblyLiteralEnum(expression) {
  if (expression.type !== "MemberExpression") return false;
  const {
    computed,
    property
  } = expression;
  if (computed && property.type !== "StringLiteral" && (property.type !== "TemplateLiteral" || property.expressions.length > 0)) {
    return false;
  }
  return isUncomputedMemberExpressionChain(expression.object);
}
function isValidAmbientConstInitializer(expression, estree) {
  var _expression$extra;
  const {
    type
  } = expression;
  if ((_expression$extra = expression.extra) != null && _expression$extra.parenthesized) {
    return false;
  }
  if (estree) {
    if (type === "Literal") {
      const {
        value
      } = expression;
      if (typeof value === "string" || typeof value === "boolean") {
        return true;
      }
    }
  } else {
    if (type === "StringLiteral" || type === "BooleanLiteral") {
      return true;
    }
  }
  if (isNumber$1(expression, estree) || isNegativeNumber(expression, estree)) {
    return true;
  }
  if (type === "TemplateLiteral" && expression.expressions.length === 0) {
    return true;
  }
  if (isPossiblyLiteralEnum(expression)) {
    return true;
  }
  return false;
}
function isNumber$1(expression, estree) {
  if (estree) {
    return expression.type === "Literal" && (typeof expression.value === "number" || "bigint" in expression);
  } else {
    return expression.type === "NumericLiteral" || expression.type === "BigIntLiteral";
  }
}
function isNegativeNumber(expression, estree) {
  if (expression.type === "UnaryExpression") {
    const {
      operator,
      argument
    } = expression;
    if (operator === "-" && isNumber$1(argument, estree)) {
      return true;
    }
  }
  return false;
}
function isUncomputedMemberExpressionChain(expression) {
  if (expression.type === "Identifier") return true;
  if (expression.type !== "MemberExpression") return false;
  if (expression.computed) return false;
  return isUncomputedMemberExpressionChain(expression.object);
}
const PlaceholderErrors = ParseErrorEnum`placeholders`({
  ClassNameIsRequired: "A class name is required.",
  UnexpectedSpace: "Unexpected space in placeholder."
});
var placeholders = superClass => class PlaceholdersParserMixin extends superClass {
  parsePlaceholder(expectedNode) {
    if (this.match(142)) {
      const node = this.startNode();
      this.next();
      this.assertNoSpace();
      node.name = super.parseIdentifier(true);
      this.assertNoSpace();
      this.expect(142);
      return this.finishPlaceholder(node, expectedNode);
    }
  }
  finishPlaceholder(node, expectedNode) {
    const isFinished = !!(node.expectedNode && node.type === "Placeholder");
    node.expectedNode = expectedNode;
    return isFinished ? node : this.finishNode(node, "Placeholder");
  }
  getTokenFromCode(code) {
    if (code === 37 && this.input.charCodeAt(this.state.pos + 1) === 37) {
      this.finishOp(142, 2);
    } else {
      super.getTokenFromCode(code);
    }
  }
  parseExprAtom(refExpressionErrors) {
    return this.parsePlaceholder("Expression") || super.parseExprAtom(refExpressionErrors);
  }
  parseIdentifier(liberal) {
    return this.parsePlaceholder("Identifier") || super.parseIdentifier(liberal);
  }
  checkReservedWord(word, startLoc, checkKeywords, isBinding) {
    if (word !== undefined) {
      super.checkReservedWord(word, startLoc, checkKeywords, isBinding);
    }
  }
  parseBindingAtom() {
    return this.parsePlaceholder("Pattern") || super.parseBindingAtom();
  }
  isValidLVal(type, isParenthesized, binding) {
    return type === "Placeholder" || super.isValidLVal(type, isParenthesized, binding);
  }
  toAssignable(node, isLHS) {
    if (node && node.type === "Placeholder" && node.expectedNode === "Expression") {
      node.expectedNode = "Pattern";
    } else {
      super.toAssignable(node, isLHS);
    }
  }
  chStartsBindingIdentifier(ch, pos) {
    if (super.chStartsBindingIdentifier(ch, pos)) {
      return true;
    }
    const nextToken = this.lookahead();
    if (nextToken.type === 142) {
      return true;
    }
    return false;
  }
  verifyBreakContinue(node, isBreak) {
    if (node.label && node.label.type === "Placeholder") return;
    super.verifyBreakContinue(node, isBreak);
  }
  parseExpressionStatement(node, expr) {
    if (expr.type !== "Placeholder" || expr.extra && expr.extra.parenthesized) {
      return super.parseExpressionStatement(node, expr);
    }
    if (this.match(14)) {
      const stmt = node;
      stmt.label = this.finishPlaceholder(expr, "Identifier");
      this.next();
      stmt.body = super.parseStatementOrSloppyAnnexBFunctionDeclaration();
      return this.finishNode(stmt, "LabeledStatement");
    }
    this.semicolon();
    node.name = expr.name;
    return this.finishPlaceholder(node, "Statement");
  }
  parseBlock(allowDirectives, createNewLexicalScope, afterBlockParse) {
    return this.parsePlaceholder("BlockStatement") || super.parseBlock(allowDirectives, createNewLexicalScope, afterBlockParse);
  }
  parseFunctionId(requireId) {
    return this.parsePlaceholder("Identifier") || super.parseFunctionId(requireId);
  }
  parseClass(node, isStatement, optionalId) {
    const type = isStatement ? "ClassDeclaration" : "ClassExpression";
    this.next();
    const oldStrict = this.state.strict;
    const placeholder = this.parsePlaceholder("Identifier");
    if (placeholder) {
      if (this.match(81) || this.match(142) || this.match(5)) {
        node.id = placeholder;
      } else if (optionalId || !isStatement) {
        node.id = null;
        node.body = this.finishPlaceholder(placeholder, "ClassBody");
        return this.finishNode(node, type);
      } else {
        throw this.raise(PlaceholderErrors.ClassNameIsRequired, {
          at: this.state.startLoc
        });
      }
    } else {
      this.parseClassId(node, isStatement, optionalId);
    }
    super.parseClassSuper(node);
    node.body = this.parsePlaceholder("ClassBody") || super.parseClassBody(!!node.superClass, oldStrict);
    return this.finishNode(node, type);
  }
  parseExport(node, decorators) {
    const placeholder = this.parsePlaceholder("Identifier");
    if (!placeholder) return super.parseExport(node, decorators);
    if (!this.isContextual(97) && !this.match(12)) {
      node.specifiers = [];
      node.source = null;
      node.declaration = this.finishPlaceholder(placeholder, "Declaration");
      return this.finishNode(node, "ExportNamedDeclaration");
    }
    this.expectPlugin("exportDefaultFrom");
    const specifier = this.startNode();
    specifier.exported = placeholder;
    node.specifiers = [this.finishNode(specifier, "ExportDefaultSpecifier")];
    return super.parseExport(node, decorators);
  }
  isExportDefaultSpecifier() {
    if (this.match(65)) {
      const next = this.nextTokenStart();
      if (this.isUnparsedContextual(next, "from")) {
        if (this.input.startsWith(tokenLabelName(142), this.nextTokenStartSince(next + 4))) {
          return true;
        }
      }
    }
    return super.isExportDefaultSpecifier();
  }
  maybeParseExportDefaultSpecifier(node) {
    if (node.specifiers && node.specifiers.length > 0) {
      return true;
    }
    return super.maybeParseExportDefaultSpecifier(node);
  }
  checkExport(node) {
    const {
      specifiers
    } = node;
    if (specifiers != null && specifiers.length) {
      node.specifiers = specifiers.filter(node => node.exported.type === "Placeholder");
    }
    super.checkExport(node);
    node.specifiers = specifiers;
  }
  parseImport(node) {
    const placeholder = this.parsePlaceholder("Identifier");
    if (!placeholder) return super.parseImport(node);
    node.specifiers = [];
    if (!this.isContextual(97) && !this.match(12)) {
      node.source = this.finishPlaceholder(placeholder, "StringLiteral");
      this.semicolon();
      return this.finishNode(node, "ImportDeclaration");
    }
    const specifier = this.startNodeAtNode(placeholder);
    specifier.local = placeholder;
    node.specifiers.push(this.finishNode(specifier, "ImportDefaultSpecifier"));
    if (this.eat(12)) {
      const hasStarImport = this.maybeParseStarImportSpecifier(node);
      if (!hasStarImport) this.parseNamedImportSpecifiers(node);
    }
    this.expectContextual(97);
    node.source = this.parseImportSource();
    this.semicolon();
    return this.finishNode(node, "ImportDeclaration");
  }
  parseImportSource() {
    return this.parsePlaceholder("StringLiteral") || super.parseImportSource();
  }
  assertNoSpace() {
    if (this.state.start > this.state.lastTokEndLoc.index) {
      this.raise(PlaceholderErrors.UnexpectedSpace, {
        at: this.state.lastTokEndLoc
      });
    }
  }
};
var v8intrinsic = superClass => class V8IntrinsicMixin extends superClass {
  parseV8Intrinsic() {
    if (this.match(54)) {
      const v8IntrinsicStartLoc = this.state.startLoc;
      const node = this.startNode();
      this.next();
      if (tokenIsIdentifier(this.state.type)) {
        const name = this.parseIdentifierName();
        const identifier = this.createIdentifier(node, name);
        identifier.type = "V8IntrinsicIdentifier";
        if (this.match(10)) {
          return identifier;
        }
      }
      this.unexpected(v8IntrinsicStartLoc);
    }
  }
  parseExprAtom(refExpressionErrors) {
    return this.parseV8Intrinsic() || super.parseExprAtom(refExpressionErrors);
  }
};
function hasPlugin(plugins, expectedConfig) {
  const [expectedName, expectedOptions] = typeof expectedConfig === "string" ? [expectedConfig, {}] : expectedConfig;
  const expectedKeys = Object.keys(expectedOptions);
  const expectedOptionsIsEmpty = expectedKeys.length === 0;
  return plugins.some(p => {
    if (typeof p === "string") {
      return expectedOptionsIsEmpty && p === expectedName;
    } else {
      const [pluginName, pluginOptions] = p;
      if (pluginName !== expectedName) {
        return false;
      }
      for (const key of expectedKeys) {
        if (pluginOptions[key] !== expectedOptions[key]) {
          return false;
        }
      }
      return true;
    }
  });
}
function getPluginOption(plugins, name, option) {
  const plugin = plugins.find(plugin => {
    if (Array.isArray(plugin)) {
      return plugin[0] === name;
    } else {
      return plugin === name;
    }
  });
  if (plugin && Array.isArray(plugin) && plugin.length > 1) {
    return plugin[1][option];
  }
  return null;
}
const PIPELINE_PROPOSALS = ["minimal", "fsharp", "hack", "smart"];
const TOPIC_TOKENS = ["^^", "@@", "^", "%", "#"];
const RECORD_AND_TUPLE_SYNTAX_TYPES = ["hash", "bar"];
function validatePlugins(plugins) {
  if (hasPlugin(plugins, "decorators")) {
    if (hasPlugin(plugins, "decorators-legacy")) {
      throw new Error("Cannot use the decorators and decorators-legacy plugin together");
    }
    const decoratorsBeforeExport = getPluginOption(plugins, "decorators", "decoratorsBeforeExport");
    if (decoratorsBeforeExport != null && typeof decoratorsBeforeExport !== "boolean") {
      throw new Error("'decoratorsBeforeExport' must be a boolean, if specified.");
    }
    const allowCallParenthesized = getPluginOption(plugins, "decorators", "allowCallParenthesized");
    if (allowCallParenthesized != null && typeof allowCallParenthesized !== "boolean") {
      throw new Error("'allowCallParenthesized' must be a boolean.");
    }
  }
  if (hasPlugin(plugins, "flow") && hasPlugin(plugins, "typescript")) {
    throw new Error("Cannot combine flow and typescript plugins.");
  }
  if (hasPlugin(plugins, "placeholders") && hasPlugin(plugins, "v8intrinsic")) {
    throw new Error("Cannot combine placeholders and v8intrinsic plugins.");
  }
  if (hasPlugin(plugins, "pipelineOperator")) {
    const proposal = getPluginOption(plugins, "pipelineOperator", "proposal");
    if (!PIPELINE_PROPOSALS.includes(proposal)) {
      const proposalList = PIPELINE_PROPOSALS.map(p => `"${p}"`).join(", ");
      throw new Error(`"pipelineOperator" requires "proposal" option whose value must be one of: ${proposalList}.`);
    }
    const tupleSyntaxIsHash = hasPlugin(plugins, ["recordAndTuple", {
      syntaxType: "hash"
    }]);
    if (proposal === "hack") {
      if (hasPlugin(plugins, "placeholders")) {
        throw new Error("Cannot combine placeholders plugin and Hack-style pipes.");
      }
      if (hasPlugin(plugins, "v8intrinsic")) {
        throw new Error("Cannot combine v8intrinsic plugin and Hack-style pipes.");
      }
      const topicToken = getPluginOption(plugins, "pipelineOperator", "topicToken");
      if (!TOPIC_TOKENS.includes(topicToken)) {
        const tokenList = TOPIC_TOKENS.map(t => `"${t}"`).join(", ");
        throw new Error(`"pipelineOperator" in "proposal": "hack" mode also requires a "topicToken" option whose value must be one of: ${tokenList}.`);
      }
      if (topicToken === "#" && tupleSyntaxIsHash) {
        throw new Error('Plugin conflict between `["pipelineOperator", { proposal: "hack", topicToken: "#" }]` and `["recordAndtuple", { syntaxType: "hash"}]`.');
      }
    } else if (proposal === "smart" && tupleSyntaxIsHash) {
      throw new Error('Plugin conflict between `["pipelineOperator", { proposal: "smart" }]` and `["recordAndtuple", { syntaxType: "hash"}]`.');
    }
  }
  if (hasPlugin(plugins, "moduleAttributes")) {
    {
      if (hasPlugin(plugins, "importAssertions")) {
        throw new Error("Cannot combine importAssertions and moduleAttributes plugins.");
      }
      const moduleAttributesVersionPluginOption = getPluginOption(plugins, "moduleAttributes", "version");
      if (moduleAttributesVersionPluginOption !== "may-2020") {
        throw new Error("The 'moduleAttributes' plugin requires a 'version' option," + " representing the last proposal update. Currently, the" + " only supported value is 'may-2020'.");
      }
    }
  }
  if (hasPlugin(plugins, "recordAndTuple") && getPluginOption(plugins, "recordAndTuple", "syntaxType") != null && !RECORD_AND_TUPLE_SYNTAX_TYPES.includes(getPluginOption(plugins, "recordAndTuple", "syntaxType"))) {
    throw new Error("The 'syntaxType' option of the 'recordAndTuple' plugin must be one of: " + RECORD_AND_TUPLE_SYNTAX_TYPES.map(p => `'${p}'`).join(", "));
  }
  if (hasPlugin(plugins, "asyncDoExpressions") && !hasPlugin(plugins, "doExpressions")) {
    const error = new Error("'asyncDoExpressions' requires 'doExpressions', please add 'doExpressions' to parser plugins.");
    error.missingPlugins = "doExpressions";
    throw error;
  }
}
const mixinPlugins = {
  estree,
  jsx,
  flow,
  typescript,
  v8intrinsic,
  placeholders
};
const mixinPluginNames = Object.keys(mixinPlugins);
class ExpressionParser extends LValParser {
  checkProto(prop, isRecord, protoRef, refExpressionErrors) {
    if (prop.type === "SpreadElement" || this.isObjectMethod(prop) || prop.computed || prop.shorthand) {
      return;
    }
    const key = prop.key;
    const name = key.type === "Identifier" ? key.name : key.value;
    if (name === "__proto__") {
      if (isRecord) {
        this.raise(Errors.RecordNoProto, {
          at: key
        });
        return;
      }
      if (protoRef.used) {
        if (refExpressionErrors) {
          if (refExpressionErrors.doubleProtoLoc === null) {
            refExpressionErrors.doubleProtoLoc = key.loc.start;
          }
        } else {
          this.raise(Errors.DuplicateProto, {
            at: key
          });
        }
      }
      protoRef.used = true;
    }
  }
  shouldExitDescending(expr, potentialArrowAt) {
    return expr.type === "ArrowFunctionExpression" && expr.start === potentialArrowAt;
  }
  getExpression() {
    this.enterInitialScopes();
    this.nextToken();
    const expr = this.parseExpression();
    if (!this.match(137)) {
      this.unexpected();
    }
    this.finalizeRemainingComments();
    expr.comments = this.state.comments;
    expr.errors = this.state.errors;
    if (this.options.tokens) {
      expr.tokens = this.tokens;
    }
    return expr;
  }
  parseExpression(disallowIn, refExpressionErrors) {
    if (disallowIn) {
      return this.disallowInAnd(() => this.parseExpressionBase(refExpressionErrors));
    }
    return this.allowInAnd(() => this.parseExpressionBase(refExpressionErrors));
  }
  parseExpressionBase(refExpressionErrors) {
    const startLoc = this.state.startLoc;
    const expr = this.parseMaybeAssign(refExpressionErrors);
    if (this.match(12)) {
      const node = this.startNodeAt(startLoc);
      node.expressions = [expr];
      while (this.eat(12)) {
        node.expressions.push(this.parseMaybeAssign(refExpressionErrors));
      }
      this.toReferencedList(node.expressions);
      return this.finishNode(node, "SequenceExpression");
    }
    return expr;
  }
  parseMaybeAssignDisallowIn(refExpressionErrors, afterLeftParse) {
    return this.disallowInAnd(() => this.parseMaybeAssign(refExpressionErrors, afterLeftParse));
  }
  parseMaybeAssignAllowIn(refExpressionErrors, afterLeftParse) {
    return this.allowInAnd(() => this.parseMaybeAssign(refExpressionErrors, afterLeftParse));
  }
  setOptionalParametersError(refExpressionErrors, resultError) {
    var _resultError$loc;
    refExpressionErrors.optionalParametersLoc = (_resultError$loc = resultError == null ? void 0 : resultError.loc) != null ? _resultError$loc : this.state.startLoc;
  }
  parseMaybeAssign(refExpressionErrors, afterLeftParse) {
    const startLoc = this.state.startLoc;
    if (this.isContextual(106)) {
      if (this.prodParam.hasYield) {
        let left = this.parseYield();
        if (afterLeftParse) {
          left = afterLeftParse.call(this, left, startLoc);
        }
        return left;
      }
    }
    let ownExpressionErrors;
    if (refExpressionErrors) {
      ownExpressionErrors = false;
    } else {
      refExpressionErrors = new ExpressionErrors();
      ownExpressionErrors = true;
    }
    const {
      type
    } = this.state;
    if (type === 10 || tokenIsIdentifier(type)) {
      this.state.potentialArrowAt = this.state.start;
    }
    let left = this.parseMaybeConditional(refExpressionErrors);
    if (afterLeftParse) {
      left = afterLeftParse.call(this, left, startLoc);
    }
    if (tokenIsAssignment(this.state.type)) {
      const node = this.startNodeAt(startLoc);
      const operator = this.state.value;
      node.operator = operator;
      if (this.match(29)) {
        this.toAssignable(left, true);
        node.left = left;
        const startIndex = startLoc.index;
        if (refExpressionErrors.doubleProtoLoc != null && refExpressionErrors.doubleProtoLoc.index >= startIndex) {
          refExpressionErrors.doubleProtoLoc = null;
        }
        if (refExpressionErrors.shorthandAssignLoc != null && refExpressionErrors.shorthandAssignLoc.index >= startIndex) {
          refExpressionErrors.shorthandAssignLoc = null;
        }
        if (refExpressionErrors.privateKeyLoc != null && refExpressionErrors.privateKeyLoc.index >= startIndex) {
          this.checkDestructuringPrivate(refExpressionErrors);
          refExpressionErrors.privateKeyLoc = null;
        }
      } else {
        node.left = left;
      }
      this.next();
      node.right = this.parseMaybeAssign();
      this.checkLVal(left, {
        in: this.finishNode(node, "AssignmentExpression")
      });
      return node;
    } else if (ownExpressionErrors) {
      this.checkExpressionErrors(refExpressionErrors, true);
    }
    return left;
  }
  parseMaybeConditional(refExpressionErrors) {
    const startLoc = this.state.startLoc;
    const potentialArrowAt = this.state.potentialArrowAt;
    const expr = this.parseExprOps(refExpressionErrors);
    if (this.shouldExitDescending(expr, potentialArrowAt)) {
      return expr;
    }
    return this.parseConditional(expr, startLoc, refExpressionErrors);
  }
  parseConditional(expr, startLoc, refExpressionErrors) {
    if (this.eat(17)) {
      const node = this.startNodeAt(startLoc);
      node.test = expr;
      node.consequent = this.parseMaybeAssignAllowIn();
      this.expect(14);
      node.alternate = this.parseMaybeAssign();
      return this.finishNode(node, "ConditionalExpression");
    }
    return expr;
  }
  parseMaybeUnaryOrPrivate(refExpressionErrors) {
    return this.match(136) ? this.parsePrivateName() : this.parseMaybeUnary(refExpressionErrors);
  }
  parseExprOps(refExpressionErrors) {
    const startLoc = this.state.startLoc;
    const potentialArrowAt = this.state.potentialArrowAt;
    const expr = this.parseMaybeUnaryOrPrivate(refExpressionErrors);
    if (this.shouldExitDescending(expr, potentialArrowAt)) {
      return expr;
    }
    return this.parseExprOp(expr, startLoc, -1);
  }
  parseExprOp(left, leftStartLoc, minPrec) {
    if (this.isPrivateName(left)) {
      const value = this.getPrivateNameSV(left);
      if (minPrec >= tokenOperatorPrecedence(58) || !this.prodParam.hasIn || !this.match(58)) {
        this.raise(Errors.PrivateInExpectedIn, {
          at: left,
          identifierName: value
        });
      }
      this.classScope.usePrivateName(value, left.loc.start);
    }
    const op = this.state.type;
    if (tokenIsOperator(op) && (this.prodParam.hasIn || !this.match(58))) {
      let prec = tokenOperatorPrecedence(op);
      if (prec > minPrec) {
        if (op === 39) {
          this.expectPlugin("pipelineOperator");
          if (this.state.inFSharpPipelineDirectBody) {
            return left;
          }
          this.checkPipelineAtInfixOperator(left, leftStartLoc);
        }
        const node = this.startNodeAt(leftStartLoc);
        node.left = left;
        node.operator = this.state.value;
        const logical = op === 41 || op === 42;
        const coalesce = op === 40;
        if (coalesce) {
          prec = tokenOperatorPrecedence(42);
        }
        this.next();
        if (op === 39 && this.hasPlugin(["pipelineOperator", {
          proposal: "minimal"
        }])) {
          if (this.state.type === 96 && this.prodParam.hasAwait) {
            throw this.raise(Errors.UnexpectedAwaitAfterPipelineBody, {
              at: this.state.startLoc
            });
          }
        }
        node.right = this.parseExprOpRightExpr(op, prec);
        const finishedNode = this.finishNode(node, logical || coalesce ? "LogicalExpression" : "BinaryExpression");
        const nextOp = this.state.type;
        if (coalesce && (nextOp === 41 || nextOp === 42) || logical && nextOp === 40) {
          throw this.raise(Errors.MixingCoalesceWithLogical, {
            at: this.state.startLoc
          });
        }
        return this.parseExprOp(finishedNode, leftStartLoc, minPrec);
      }
    }
    return left;
  }
  parseExprOpRightExpr(op, prec) {
    const startLoc = this.state.startLoc;
    switch (op) {
      case 39:
        switch (this.getPluginOption("pipelineOperator", "proposal")) {
          case "hack":
            return this.withTopicBindingContext(() => {
              return this.parseHackPipeBody();
            });
          case "smart":
            return this.withTopicBindingContext(() => {
              if (this.prodParam.hasYield && this.isContextual(106)) {
                throw this.raise(Errors.PipeBodyIsTighter, {
                  at: this.state.startLoc
                });
              }
              return this.parseSmartPipelineBodyInStyle(this.parseExprOpBaseRightExpr(op, prec), startLoc);
            });
          case "fsharp":
            return this.withSoloAwaitPermittingContext(() => {
              return this.parseFSharpPipelineBody(prec);
            });
        }
      default:
        return this.parseExprOpBaseRightExpr(op, prec);
    }
  }
  parseExprOpBaseRightExpr(op, prec) {
    const startLoc = this.state.startLoc;
    return this.parseExprOp(this.parseMaybeUnaryOrPrivate(), startLoc, tokenIsRightAssociative(op) ? prec - 1 : prec);
  }
  parseHackPipeBody() {
    var _body$extra;
    const {
      startLoc
    } = this.state;
    const body = this.parseMaybeAssign();
    const requiredParentheses = UnparenthesizedPipeBodyDescriptions.has(body.type);
    if (requiredParentheses && !((_body$extra = body.extra) != null && _body$extra.parenthesized)) {
      this.raise(Errors.PipeUnparenthesizedBody, {
        at: startLoc,
        type: body.type
      });
    }
    if (!this.topicReferenceWasUsedInCurrentContext()) {
      this.raise(Errors.PipeTopicUnused, {
        at: startLoc
      });
    }
    return body;
  }
  checkExponentialAfterUnary(node) {
    if (this.match(57)) {
      this.raise(Errors.UnexpectedTokenUnaryExponentiation, {
        at: node.argument
      });
    }
  }
  parseMaybeUnary(refExpressionErrors, sawUnary) {
    const startLoc = this.state.startLoc;
    const isAwait = this.isContextual(96);
    if (isAwait && this.isAwaitAllowed()) {
      this.next();
      const expr = this.parseAwait(startLoc);
      if (!sawUnary) this.checkExponentialAfterUnary(expr);
      return expr;
    }
    const update = this.match(34);
    const node = this.startNode();
    if (tokenIsPrefix(this.state.type)) {
      node.operator = this.state.value;
      node.prefix = true;
      if (this.match(72)) {
        this.expectPlugin("throwExpressions");
      }
      const isDelete = this.match(89);
      this.next();
      node.argument = this.parseMaybeUnary(null, true);
      this.checkExpressionErrors(refExpressionErrors, true);
      if (this.state.strict && isDelete) {
        const arg = node.argument;
        if (arg.type === "Identifier") {
          this.raise(Errors.StrictDelete, {
            at: node
          });
        } else if (this.hasPropertyAsPrivateName(arg)) {
          this.raise(Errors.DeletePrivateField, {
            at: node
          });
        }
      }
      if (!update) {
        if (!sawUnary) {
          this.checkExponentialAfterUnary(node);
        }
        return this.finishNode(node, "UnaryExpression");
      }
    }
    const expr = this.parseUpdate(node, update, refExpressionErrors);
    if (isAwait) {
      const {
        type
      } = this.state;
      const startsExpr = this.hasPlugin("v8intrinsic") ? tokenCanStartExpression(type) : tokenCanStartExpression(type) && !this.match(54);
      if (startsExpr && !this.isAmbiguousAwait()) {
        this.raiseOverwrite(Errors.AwaitNotInAsyncContext, {
          at: startLoc
        });
        return this.parseAwait(startLoc);
      }
    }
    return expr;
  }
  parseUpdate(node, update, refExpressionErrors) {
    if (update) {
      const updateExpressionNode = node;
      this.checkLVal(updateExpressionNode.argument, {
        in: this.finishNode(updateExpressionNode, "UpdateExpression")
      });
      return node;
    }
    const startLoc = this.state.startLoc;
    let expr = this.parseExprSubscripts(refExpressionErrors);
    if (this.checkExpressionErrors(refExpressionErrors, false)) return expr;
    while (tokenIsPostfix(this.state.type) && !this.canInsertSemicolon()) {
      const node = this.startNodeAt(startLoc);
      node.operator = this.state.value;
      node.prefix = false;
      node.argument = expr;
      this.next();
      this.checkLVal(expr, {
        in: expr = this.finishNode(node, "UpdateExpression")
      });
    }
    return expr;
  }
  parseExprSubscripts(refExpressionErrors) {
    const startLoc = this.state.startLoc;
    const potentialArrowAt = this.state.potentialArrowAt;
    const expr = this.parseExprAtom(refExpressionErrors);
    if (this.shouldExitDescending(expr, potentialArrowAt)) {
      return expr;
    }
    return this.parseSubscripts(expr, startLoc);
  }
  parseSubscripts(base, startLoc, noCalls) {
    const state = {
      optionalChainMember: false,
      maybeAsyncArrow: this.atPossibleAsyncArrow(base),
      stop: false
    };
    do {
      base = this.parseSubscript(base, startLoc, noCalls, state);
      state.maybeAsyncArrow = false;
    } while (!state.stop);
    return base;
  }
  parseSubscript(base, startLoc, noCalls, state) {
    const {
      type
    } = this.state;
    if (!noCalls && type === 15) {
      return this.parseBind(base, startLoc, noCalls, state);
    } else if (tokenIsTemplate(type)) {
      return this.parseTaggedTemplateExpression(base, startLoc, state);
    }
    let optional = false;
    if (type === 18) {
      if (noCalls) {
        this.raise(Errors.OptionalChainingNoNew, {
          at: this.state.startLoc
        });
        if (this.lookaheadCharCode() === 40) {
          state.stop = true;
          return base;
        }
      }
      state.optionalChainMember = optional = true;
      this.next();
    }
    if (!noCalls && this.match(10)) {
      return this.parseCoverCallAndAsyncArrowHead(base, startLoc, state, optional);
    } else {
      const computed = this.eat(0);
      if (computed || optional || this.eat(16)) {
        return this.parseMember(base, startLoc, state, computed, optional);
      } else {
        state.stop = true;
        return base;
      }
    }
  }
  parseMember(base, startLoc, state, computed, optional) {
    const node = this.startNodeAt(startLoc);
    node.object = base;
    node.computed = computed;
    if (computed) {
      node.property = this.parseExpression();
      this.expect(3);
    } else if (this.match(136)) {
      if (base.type === "Super") {
        this.raise(Errors.SuperPrivateField, {
          at: startLoc
        });
      }
      this.classScope.usePrivateName(this.state.value, this.state.startLoc);
      node.property = this.parsePrivateName();
    } else {
      node.property = this.parseIdentifier(true);
    }
    if (state.optionalChainMember) {
      node.optional = optional;
      return this.finishNode(node, "OptionalMemberExpression");
    } else {
      return this.finishNode(node, "MemberExpression");
    }
  }
  parseBind(base, startLoc, noCalls, state) {
    const node = this.startNodeAt(startLoc);
    node.object = base;
    this.next();
    node.callee = this.parseNoCallExpr();
    state.stop = true;
    return this.parseSubscripts(this.finishNode(node, "BindExpression"), startLoc, noCalls);
  }
  parseCoverCallAndAsyncArrowHead(base, startLoc, state, optional) {
    const oldMaybeInArrowParameters = this.state.maybeInArrowParameters;
    let refExpressionErrors = null;
    this.state.maybeInArrowParameters = true;
    this.next();
    const node = this.startNodeAt(startLoc);
    node.callee = base;
    const {
      maybeAsyncArrow,
      optionalChainMember
    } = state;
    if (maybeAsyncArrow) {
      this.expressionScope.enter(newAsyncArrowScope());
      refExpressionErrors = new ExpressionErrors();
    }
    if (optionalChainMember) {
      node.optional = optional;
    }
    if (optional) {
      node.arguments = this.parseCallExpressionArguments(11);
    } else {
      node.arguments = this.parseCallExpressionArguments(11, base.type === "Import", base.type !== "Super", node, refExpressionErrors);
    }
    let finishedNode = this.finishCallExpression(node, optionalChainMember);
    if (maybeAsyncArrow && this.shouldParseAsyncArrow() && !optional) {
      state.stop = true;
      this.checkDestructuringPrivate(refExpressionErrors);
      this.expressionScope.validateAsPattern();
      this.expressionScope.exit();
      finishedNode = this.parseAsyncArrowFromCallExpression(this.startNodeAt(startLoc), finishedNode);
    } else {
      if (maybeAsyncArrow) {
        this.checkExpressionErrors(refExpressionErrors, true);
        this.expressionScope.exit();
      }
      this.toReferencedArguments(finishedNode);
    }
    this.state.maybeInArrowParameters = oldMaybeInArrowParameters;
    return finishedNode;
  }
  toReferencedArguments(node, isParenthesizedExpr) {
    this.toReferencedListDeep(node.arguments, isParenthesizedExpr);
  }
  parseTaggedTemplateExpression(base, startLoc, state) {
    const node = this.startNodeAt(startLoc);
    node.tag = base;
    node.quasi = this.parseTemplate(true);
    if (state.optionalChainMember) {
      this.raise(Errors.OptionalChainingNoTemplate, {
        at: startLoc
      });
    }
    return this.finishNode(node, "TaggedTemplateExpression");
  }
  atPossibleAsyncArrow(base) {
    return base.type === "Identifier" && base.name === "async" && this.state.lastTokEndLoc.index === base.end && !this.canInsertSemicolon() && base.end - base.start === 5 && base.start === this.state.potentialArrowAt;
  }
  finishCallExpression(node, optional) {
    if (node.callee.type === "Import") {
      if (node.arguments.length === 2) {
        {
          if (!this.hasPlugin("moduleAttributes")) {
            this.expectPlugin("importAssertions");
          }
        }
      }
      if (node.arguments.length === 0 || node.arguments.length > 2) {
        this.raise(Errors.ImportCallArity, {
          at: node,
          maxArgumentCount: this.hasPlugin("importAssertions") || this.hasPlugin("moduleAttributes") ? 2 : 1
        });
      } else {
        for (const arg of node.arguments) {
          if (arg.type === "SpreadElement") {
            this.raise(Errors.ImportCallSpreadArgument, {
              at: arg
            });
          }
        }
      }
    }
    return this.finishNode(node, optional ? "OptionalCallExpression" : "CallExpression");
  }
  parseCallExpressionArguments(close, dynamicImport, allowPlaceholder, nodeForExtra, refExpressionErrors) {
    const elts = [];
    let first = true;
    const oldInFSharpPipelineDirectBody = this.state.inFSharpPipelineDirectBody;
    this.state.inFSharpPipelineDirectBody = false;
    while (!this.eat(close)) {
      if (first) {
        first = false;
      } else {
        this.expect(12);
        if (this.match(close)) {
          if (dynamicImport && !this.hasPlugin("importAssertions") && !this.hasPlugin("moduleAttributes")) {
            this.raise(Errors.ImportCallArgumentTrailingComma, {
              at: this.state.lastTokStartLoc
            });
          }
          if (nodeForExtra) {
            this.addTrailingCommaExtraToNode(nodeForExtra);
          }
          this.next();
          break;
        }
      }
      elts.push(this.parseExprListItem(false, refExpressionErrors, allowPlaceholder));
    }
    this.state.inFSharpPipelineDirectBody = oldInFSharpPipelineDirectBody;
    return elts;
  }
  shouldParseAsyncArrow() {
    return this.match(19) && !this.canInsertSemicolon();
  }
  parseAsyncArrowFromCallExpression(node, call) {
    var _call$extra;
    this.resetPreviousNodeTrailingComments(call);
    this.expect(19);
    this.parseArrowExpression(node, call.arguments, true, (_call$extra = call.extra) == null ? void 0 : _call$extra.trailingCommaLoc);
    if (call.innerComments) {
      setInnerComments(node, call.innerComments);
    }
    if (call.callee.trailingComments) {
      setInnerComments(node, call.callee.trailingComments);
    }
    return node;
  }
  parseNoCallExpr() {
    const startLoc = this.state.startLoc;
    return this.parseSubscripts(this.parseExprAtom(), startLoc, true);
  }
  parseExprAtom(refExpressionErrors) {
    let node;
    let decorators = null;
    const {
      type
    } = this.state;
    switch (type) {
      case 79:
        return this.parseSuper();
      case 83:
        node = this.startNode();
        this.next();
        if (this.match(16)) {
          return this.parseImportMetaProperty(node);
        }
        if (!this.match(10)) {
          this.raise(Errors.UnsupportedImport, {
            at: this.state.lastTokStartLoc
          });
        }
        return this.finishNode(node, "Import");
      case 78:
        node = this.startNode();
        this.next();
        return this.finishNode(node, "ThisExpression");
      case 90:
        {
          return this.parseDo(this.startNode(), false);
        }
      case 56:
      case 31:
        {
          this.readRegexp();
          return this.parseRegExpLiteral(this.state.value);
        }
      case 132:
        return this.parseNumericLiteral(this.state.value);
      case 133:
        return this.parseBigIntLiteral(this.state.value);
      case 134:
        return this.parseDecimalLiteral(this.state.value);
      case 131:
        return this.parseStringLiteral(this.state.value);
      case 84:
        return this.parseNullLiteral();
      case 85:
        return this.parseBooleanLiteral(true);
      case 86:
        return this.parseBooleanLiteral(false);
      case 10:
        {
          const canBeArrow = this.state.potentialArrowAt === this.state.start;
          return this.parseParenAndDistinguishExpression(canBeArrow);
        }
      case 2:
      case 1:
        {
          return this.parseArrayLike(this.state.type === 2 ? 4 : 3, false, true);
        }
      case 0:
        {
          return this.parseArrayLike(3, true, false, refExpressionErrors);
        }
      case 6:
      case 7:
        {
          return this.parseObjectLike(this.state.type === 6 ? 9 : 8, false, true);
        }
      case 5:
        {
          return this.parseObjectLike(8, false, false, refExpressionErrors);
        }
      case 68:
        return this.parseFunctionOrFunctionSent();
      case 26:
        decorators = this.parseDecorators();
      case 80:
        return this.parseClass(this.maybeTakeDecorators(decorators, this.startNode()), false);
      case 77:
        return this.parseNewOrNewTarget();
      case 25:
      case 24:
        return this.parseTemplate(false);
      case 15:
        {
          node = this.startNode();
          this.next();
          node.object = null;
          const callee = node.callee = this.parseNoCallExpr();
          if (callee.type === "MemberExpression") {
            return this.finishNode(node, "BindExpression");
          } else {
            throw this.raise(Errors.UnsupportedBind, {
              at: callee
            });
          }
        }
      case 136:
        {
          this.raise(Errors.PrivateInExpectedIn, {
            at: this.state.startLoc,
            identifierName: this.state.value
          });
          return this.parsePrivateName();
        }
      case 33:
        {
          return this.parseTopicReferenceThenEqualsSign(54, "%");
        }
      case 32:
        {
          return this.parseTopicReferenceThenEqualsSign(44, "^");
        }
      case 37:
      case 38:
        {
          return this.parseTopicReference("hack");
        }
      case 44:
      case 54:
      case 27:
        {
          const pipeProposal = this.getPluginOption("pipelineOperator", "proposal");
          if (pipeProposal) {
            return this.parseTopicReference(pipeProposal);
          }
          this.unexpected();
          break;
        }
      case 47:
        {
          const lookaheadCh = this.input.codePointAt(this.nextTokenStart());
          if (isIdentifierStart(lookaheadCh) || lookaheadCh === 62) {
            this.expectOnePlugin(["jsx", "flow", "typescript"]);
          } else {
            this.unexpected();
          }
          break;
        }
      default:
        if (tokenIsIdentifier(type)) {
          if (this.isContextual(125) && this.lookaheadCharCode() === 123 && !this.hasFollowingLineBreak()) {
            return this.parseModuleExpression();
          }
          const canBeArrow = this.state.potentialArrowAt === this.state.start;
          const containsEsc = this.state.containsEsc;
          const id = this.parseIdentifier();
          if (!containsEsc && id.name === "async" && !this.canInsertSemicolon()) {
            const {
              type
            } = this.state;
            if (type === 68) {
              this.resetPreviousNodeTrailingComments(id);
              this.next();
              return this.parseAsyncFunctionExpression(this.startNodeAtNode(id));
            } else if (tokenIsIdentifier(type)) {
              if (this.lookaheadCharCode() === 61) {
                return this.parseAsyncArrowUnaryFunction(this.startNodeAtNode(id));
              } else {
                return id;
              }
            } else if (type === 90) {
              this.resetPreviousNodeTrailingComments(id);
              return this.parseDo(this.startNodeAtNode(id), true);
            }
          }
          if (canBeArrow && this.match(19) && !this.canInsertSemicolon()) {
            this.next();
            return this.parseArrowExpression(this.startNodeAtNode(id), [id], false);
          }
          return id;
        } else {
          this.unexpected();
        }
    }
  }
  parseTopicReferenceThenEqualsSign(topicTokenType, topicTokenValue) {
    const pipeProposal = this.getPluginOption("pipelineOperator", "proposal");
    if (pipeProposal) {
      this.state.type = topicTokenType;
      this.state.value = topicTokenValue;
      this.state.pos--;
      this.state.end--;
      this.state.endLoc = createPositionWithColumnOffset(this.state.endLoc, -1);
      return this.parseTopicReference(pipeProposal);
    } else {
      this.unexpected();
    }
  }
  parseTopicReference(pipeProposal) {
    const node = this.startNode();
    const startLoc = this.state.startLoc;
    const tokenType = this.state.type;
    this.next();
    return this.finishTopicReference(node, startLoc, pipeProposal, tokenType);
  }
  finishTopicReference(node, startLoc, pipeProposal, tokenType) {
    if (this.testTopicReferenceConfiguration(pipeProposal, startLoc, tokenType)) {
      const nodeType = pipeProposal === "smart" ? "PipelinePrimaryTopicReference" : "TopicReference";
      if (!this.topicReferenceIsAllowedInCurrentContext()) {
        this.raise(pipeProposal === "smart" ? Errors.PrimaryTopicNotAllowed : Errors.PipeTopicUnbound, {
          at: startLoc
        });
      }
      this.registerTopicReference();
      return this.finishNode(node, nodeType);
    } else {
      throw this.raise(Errors.PipeTopicUnconfiguredToken, {
        at: startLoc,
        token: tokenLabelName(tokenType)
      });
    }
  }
  testTopicReferenceConfiguration(pipeProposal, startLoc, tokenType) {
    switch (pipeProposal) {
      case "hack":
        {
          return this.hasPlugin(["pipelineOperator", {
            topicToken: tokenLabelName(tokenType)
          }]);
        }
      case "smart":
        return tokenType === 27;
      default:
        throw this.raise(Errors.PipeTopicRequiresHackPipes, {
          at: startLoc
        });
    }
  }
  parseAsyncArrowUnaryFunction(node) {
    this.prodParam.enter(functionFlags(true, this.prodParam.hasYield));
    const params = [this.parseIdentifier()];
    this.prodParam.exit();
    if (this.hasPrecedingLineBreak()) {
      this.raise(Errors.LineTerminatorBeforeArrow, {
        at: this.state.curPosition()
      });
    }
    this.expect(19);
    return this.parseArrowExpression(node, params, true);
  }
  parseDo(node, isAsync) {
    this.expectPlugin("doExpressions");
    if (isAsync) {
      this.expectPlugin("asyncDoExpressions");
    }
    node.async = isAsync;
    this.next();
    const oldLabels = this.state.labels;
    this.state.labels = [];
    if (isAsync) {
      this.prodParam.enter(PARAM_AWAIT);
      node.body = this.parseBlock();
      this.prodParam.exit();
    } else {
      node.body = this.parseBlock();
    }
    this.state.labels = oldLabels;
    return this.finishNode(node, "DoExpression");
  }
  parseSuper() {
    const node = this.startNode();
    this.next();
    if (this.match(10) && !this.scope.allowDirectSuper && !this.options.allowSuperOutsideMethod) {
      this.raise(Errors.SuperNotAllowed, {
        at: node
      });
    } else if (!this.scope.allowSuper && !this.options.allowSuperOutsideMethod) {
      this.raise(Errors.UnexpectedSuper, {
        at: node
      });
    }
    if (!this.match(10) && !this.match(0) && !this.match(16)) {
      this.raise(Errors.UnsupportedSuper, {
        at: node
      });
    }
    return this.finishNode(node, "Super");
  }
  parsePrivateName() {
    const node = this.startNode();
    const id = this.startNodeAt(createPositionWithColumnOffset(this.state.startLoc, 1));
    const name = this.state.value;
    this.next();
    node.id = this.createIdentifier(id, name);
    return this.finishNode(node, "PrivateName");
  }
  parseFunctionOrFunctionSent() {
    const node = this.startNode();
    this.next();
    if (this.prodParam.hasYield && this.match(16)) {
      const meta = this.createIdentifier(this.startNodeAtNode(node), "function");
      this.next();
      if (this.match(102)) {
        this.expectPlugin("functionSent");
      } else if (!this.hasPlugin("functionSent")) {
        this.unexpected();
      }
      return this.parseMetaProperty(node, meta, "sent");
    }
    return this.parseFunction(node);
  }
  parseMetaProperty(node, meta, propertyName) {
    node.meta = meta;
    const containsEsc = this.state.containsEsc;
    node.property = this.parseIdentifier(true);
    if (node.property.name !== propertyName || containsEsc) {
      this.raise(Errors.UnsupportedMetaProperty, {
        at: node.property,
        target: meta.name,
        onlyValidPropertyName: propertyName
      });
    }
    return this.finishNode(node, "MetaProperty");
  }
  parseImportMetaProperty(node) {
    const id = this.createIdentifier(this.startNodeAtNode(node), "import");
    this.next();
    if (this.isContextual(100)) {
      if (!this.inModule) {
        this.raise(Errors.ImportMetaOutsideModule, {
          at: id
        });
      }
      this.sawUnambiguousESM = true;
    }
    return this.parseMetaProperty(node, id, "meta");
  }
  parseLiteralAtNode(value, type, node) {
    this.addExtra(node, "rawValue", value);
    this.addExtra(node, "raw", this.input.slice(node.start, this.state.end));
    node.value = value;
    this.next();
    return this.finishNode(node, type);
  }
  parseLiteral(value, type) {
    const node = this.startNode();
    return this.parseLiteralAtNode(value, type, node);
  }
  parseStringLiteral(value) {
    return this.parseLiteral(value, "StringLiteral");
  }
  parseNumericLiteral(value) {
    return this.parseLiteral(value, "NumericLiteral");
  }
  parseBigIntLiteral(value) {
    return this.parseLiteral(value, "BigIntLiteral");
  }
  parseDecimalLiteral(value) {
    return this.parseLiteral(value, "DecimalLiteral");
  }
  parseRegExpLiteral(value) {
    const node = this.parseLiteral(value.value, "RegExpLiteral");
    node.pattern = value.pattern;
    node.flags = value.flags;
    return node;
  }
  parseBooleanLiteral(value) {
    const node = this.startNode();
    node.value = value;
    this.next();
    return this.finishNode(node, "BooleanLiteral");
  }
  parseNullLiteral() {
    const node = this.startNode();
    this.next();
    return this.finishNode(node, "NullLiteral");
  }
  parseParenAndDistinguishExpression(canBeArrow) {
    const startLoc = this.state.startLoc;
    let val;
    this.next();
    this.expressionScope.enter(newArrowHeadScope());
    const oldMaybeInArrowParameters = this.state.maybeInArrowParameters;
    const oldInFSharpPipelineDirectBody = this.state.inFSharpPipelineDirectBody;
    this.state.maybeInArrowParameters = true;
    this.state.inFSharpPipelineDirectBody = false;
    const innerStartLoc = this.state.startLoc;
    const exprList = [];
    const refExpressionErrors = new ExpressionErrors();
    let first = true;
    let spreadStartLoc;
    let optionalCommaStartLoc;
    while (!this.match(11)) {
      if (first) {
        first = false;
      } else {
        this.expect(12, refExpressionErrors.optionalParametersLoc === null ? null : refExpressionErrors.optionalParametersLoc);
        if (this.match(11)) {
          optionalCommaStartLoc = this.state.startLoc;
          break;
        }
      }
      if (this.match(21)) {
        const spreadNodeStartLoc = this.state.startLoc;
        spreadStartLoc = this.state.startLoc;
        exprList.push(this.parseParenItem(this.parseRestBinding(), spreadNodeStartLoc));
        if (!this.checkCommaAfterRest(41)) {
          break;
        }
      } else {
        exprList.push(this.parseMaybeAssignAllowIn(refExpressionErrors, this.parseParenItem));
      }
    }
    const innerEndLoc = this.state.lastTokEndLoc;
    this.expect(11);
    this.state.maybeInArrowParameters = oldMaybeInArrowParameters;
    this.state.inFSharpPipelineDirectBody = oldInFSharpPipelineDirectBody;
    let arrowNode = this.startNodeAt(startLoc);
    if (canBeArrow && this.shouldParseArrow(exprList) && (arrowNode = this.parseArrow(arrowNode))) {
      this.checkDestructuringPrivate(refExpressionErrors);
      this.expressionScope.validateAsPattern();
      this.expressionScope.exit();
      this.parseArrowExpression(arrowNode, exprList, false);
      return arrowNode;
    }
    this.expressionScope.exit();
    if (!exprList.length) {
      this.unexpected(this.state.lastTokStartLoc);
    }
    if (optionalCommaStartLoc) this.unexpected(optionalCommaStartLoc);
    if (spreadStartLoc) this.unexpected(spreadStartLoc);
    this.checkExpressionErrors(refExpressionErrors, true);
    this.toReferencedListDeep(exprList, true);
    if (exprList.length > 1) {
      val = this.startNodeAt(innerStartLoc);
      val.expressions = exprList;
      this.finishNode(val, "SequenceExpression");
      this.resetEndLocation(val, innerEndLoc);
    } else {
      val = exprList[0];
    }
    return this.wrapParenthesis(startLoc, val);
  }
  wrapParenthesis(startLoc, expression) {
    if (!this.options.createParenthesizedExpressions) {
      this.addExtra(expression, "parenthesized", true);
      this.addExtra(expression, "parenStart", startLoc.index);
      this.takeSurroundingComments(expression, startLoc.index, this.state.lastTokEndLoc.index);
      return expression;
    }
    const parenExpression = this.startNodeAt(startLoc);
    parenExpression.expression = expression;
    return this.finishNode(parenExpression, "ParenthesizedExpression");
  }
  shouldParseArrow(params) {
    return !this.canInsertSemicolon();
  }
  parseArrow(node) {
    if (this.eat(19)) {
      return node;
    }
  }
  parseParenItem(node, startLoc) {
    return node;
  }
  parseNewOrNewTarget() {
    const node = this.startNode();
    this.next();
    if (this.match(16)) {
      const meta = this.createIdentifier(this.startNodeAtNode(node), "new");
      this.next();
      const metaProp = this.parseMetaProperty(node, meta, "target");
      if (!this.scope.inNonArrowFunction && !this.scope.inClass && !this.options.allowNewTargetOutsideFunction) {
        this.raise(Errors.UnexpectedNewTarget, {
          at: metaProp
        });
      }
      return metaProp;
    }
    return this.parseNew(node);
  }
  parseNew(node) {
    this.parseNewCallee(node);
    if (this.eat(10)) {
      const args = this.parseExprList(11);
      this.toReferencedList(args);
      node.arguments = args;
    } else {
      node.arguments = [];
    }
    return this.finishNode(node, "NewExpression");
  }
  parseNewCallee(node) {
    node.callee = this.parseNoCallExpr();
    if (node.callee.type === "Import") {
      this.raise(Errors.ImportCallNotNewExpression, {
        at: node.callee
      });
    }
  }
  parseTemplateElement(isTagged) {
    const {
      start,
      startLoc,
      end,
      value
    } = this.state;
    const elemStart = start + 1;
    const elem = this.startNodeAt(createPositionWithColumnOffset(startLoc, 1));
    if (value === null) {
      if (!isTagged) {
        this.raise(Errors.InvalidEscapeSequenceTemplate, {
          at: createPositionWithColumnOffset(this.state.firstInvalidTemplateEscapePos, 1)
        });
      }
    }
    const isTail = this.match(24);
    const endOffset = isTail ? -1 : -2;
    const elemEnd = end + endOffset;
    elem.value = {
      raw: this.input.slice(elemStart, elemEnd).replace(/\r\n?/g, "\n"),
      cooked: value === null ? null : value.slice(1, endOffset)
    };
    elem.tail = isTail;
    this.next();
    const finishedNode = this.finishNode(elem, "TemplateElement");
    this.resetEndLocation(finishedNode, createPositionWithColumnOffset(this.state.lastTokEndLoc, endOffset));
    return finishedNode;
  }
  parseTemplate(isTagged) {
    const node = this.startNode();
    node.expressions = [];
    let curElt = this.parseTemplateElement(isTagged);
    node.quasis = [curElt];
    while (!curElt.tail) {
      node.expressions.push(this.parseTemplateSubstitution());
      this.readTemplateContinuation();
      node.quasis.push(curElt = this.parseTemplateElement(isTagged));
    }
    return this.finishNode(node, "TemplateLiteral");
  }
  parseTemplateSubstitution() {
    return this.parseExpression();
  }
  parseObjectLike(close, isPattern, isRecord, refExpressionErrors) {
    if (isRecord) {
      this.expectPlugin("recordAndTuple");
    }
    const oldInFSharpPipelineDirectBody = this.state.inFSharpPipelineDirectBody;
    this.state.inFSharpPipelineDirectBody = false;
    const propHash = Object.create(null);
    let first = true;
    const node = this.startNode();
    node.properties = [];
    this.next();
    while (!this.match(close)) {
      if (first) {
        first = false;
      } else {
        this.expect(12);
        if (this.match(close)) {
          this.addTrailingCommaExtraToNode(node);
          break;
        }
      }
      let prop;
      if (isPattern) {
        prop = this.parseBindingProperty();
      } else {
        prop = this.parsePropertyDefinition(refExpressionErrors);
        this.checkProto(prop, isRecord, propHash, refExpressionErrors);
      }
      if (isRecord && !this.isObjectProperty(prop) && prop.type !== "SpreadElement") {
        this.raise(Errors.InvalidRecordProperty, {
          at: prop
        });
      }
      if (prop.shorthand) {
        this.addExtra(prop, "shorthand", true);
      }
      node.properties.push(prop);
    }
    this.next();
    this.state.inFSharpPipelineDirectBody = oldInFSharpPipelineDirectBody;
    let type = "ObjectExpression";
    if (isPattern) {
      type = "ObjectPattern";
    } else if (isRecord) {
      type = "RecordExpression";
    }
    return this.finishNode(node, type);
  }
  addTrailingCommaExtraToNode(node) {
    this.addExtra(node, "trailingComma", this.state.lastTokStart);
    this.addExtra(node, "trailingCommaLoc", this.state.lastTokStartLoc, false);
  }
  maybeAsyncOrAccessorProp(prop) {
    return !prop.computed && prop.key.type === "Identifier" && (this.isLiteralPropertyName() || this.match(0) || this.match(55));
  }
  parsePropertyDefinition(refExpressionErrors) {
    let decorators = [];
    if (this.match(26)) {
      if (this.hasPlugin("decorators")) {
        this.raise(Errors.UnsupportedPropertyDecorator, {
          at: this.state.startLoc
        });
      }
      while (this.match(26)) {
        decorators.push(this.parseDecorator());
      }
    }
    const prop = this.startNode();
    let isAsync = false;
    let isAccessor = false;
    let startLoc;
    if (this.match(21)) {
      if (decorators.length) this.unexpected();
      return this.parseSpread();
    }
    if (decorators.length) {
      prop.decorators = decorators;
      decorators = [];
    }
    prop.method = false;
    if (refExpressionErrors) {
      startLoc = this.state.startLoc;
    }
    let isGenerator = this.eat(55);
    this.parsePropertyNamePrefixOperator(prop);
    const containsEsc = this.state.containsEsc;
    const key = this.parsePropertyName(prop, refExpressionErrors);
    if (!isGenerator && !containsEsc && this.maybeAsyncOrAccessorProp(prop)) {
      const keyName = key.name;
      if (keyName === "async" && !this.hasPrecedingLineBreak()) {
        isAsync = true;
        this.resetPreviousNodeTrailingComments(key);
        isGenerator = this.eat(55);
        this.parsePropertyName(prop);
      }
      if (keyName === "get" || keyName === "set") {
        isAccessor = true;
        this.resetPreviousNodeTrailingComments(key);
        prop.kind = keyName;
        if (this.match(55)) {
          isGenerator = true;
          this.raise(Errors.AccessorIsGenerator, {
            at: this.state.curPosition(),
            kind: keyName
          });
          this.next();
        }
        this.parsePropertyName(prop);
      }
    }
    return this.parseObjPropValue(prop, startLoc, isGenerator, isAsync, false, isAccessor, refExpressionErrors);
  }
  getGetterSetterExpectedParamCount(method) {
    return method.kind === "get" ? 0 : 1;
  }
  getObjectOrClassMethodParams(method) {
    return method.params;
  }
  checkGetterSetterParams(method) {
    var _params;
    const paramCount = this.getGetterSetterExpectedParamCount(method);
    const params = this.getObjectOrClassMethodParams(method);
    if (params.length !== paramCount) {
      this.raise(method.kind === "get" ? Errors.BadGetterArity : Errors.BadSetterArity, {
        at: method
      });
    }
    if (method.kind === "set" && ((_params = params[params.length - 1]) == null ? void 0 : _params.type) === "RestElement") {
      this.raise(Errors.BadSetterRestParameter, {
        at: method
      });
    }
  }
  parseObjectMethod(prop, isGenerator, isAsync, isPattern, isAccessor) {
    if (isAccessor) {
      const finishedProp = this.parseMethod(prop, isGenerator, false, false, false, "ObjectMethod");
      this.checkGetterSetterParams(finishedProp);
      return finishedProp;
    }
    if (isAsync || isGenerator || this.match(10)) {
      if (isPattern) this.unexpected();
      prop.kind = "method";
      prop.method = true;
      return this.parseMethod(prop, isGenerator, isAsync, false, false, "ObjectMethod");
    }
  }
  parseObjectProperty(prop, startLoc, isPattern, refExpressionErrors) {
    prop.shorthand = false;
    if (this.eat(14)) {
      prop.value = isPattern ? this.parseMaybeDefault(this.state.startLoc) : this.parseMaybeAssignAllowIn(refExpressionErrors);
      return this.finishNode(prop, "ObjectProperty");
    }
    if (!prop.computed && prop.key.type === "Identifier") {
      this.checkReservedWord(prop.key.name, prop.key.loc.start, true, false);
      if (isPattern) {
        prop.value = this.parseMaybeDefault(startLoc, cloneIdentifier(prop.key));
      } else if (this.match(29)) {
        const shorthandAssignLoc = this.state.startLoc;
        if (refExpressionErrors != null) {
          if (refExpressionErrors.shorthandAssignLoc === null) {
            refExpressionErrors.shorthandAssignLoc = shorthandAssignLoc;
          }
        } else {
          this.raise(Errors.InvalidCoverInitializedName, {
            at: shorthandAssignLoc
          });
        }
        prop.value = this.parseMaybeDefault(startLoc, cloneIdentifier(prop.key));
      } else {
        prop.value = cloneIdentifier(prop.key);
      }
      prop.shorthand = true;
      return this.finishNode(prop, "ObjectProperty");
    }
  }
  parseObjPropValue(prop, startLoc, isGenerator, isAsync, isPattern, isAccessor, refExpressionErrors) {
    const node = this.parseObjectMethod(prop, isGenerator, isAsync, isPattern, isAccessor) || this.parseObjectProperty(prop, startLoc, isPattern, refExpressionErrors);
    if (!node) this.unexpected();
    return node;
  }
  parsePropertyName(prop, refExpressionErrors) {
    if (this.eat(0)) {
      prop.computed = true;
      prop.key = this.parseMaybeAssignAllowIn();
      this.expect(3);
    } else {
      const {
        type,
        value
      } = this.state;
      let key;
      if (tokenIsKeywordOrIdentifier(type)) {
        key = this.parseIdentifier(true);
      } else {
        switch (type) {
          case 132:
            key = this.parseNumericLiteral(value);
            break;
          case 131:
            key = this.parseStringLiteral(value);
            break;
          case 133:
            key = this.parseBigIntLiteral(value);
            break;
          case 134:
            key = this.parseDecimalLiteral(value);
            break;
          case 136:
            {
              const privateKeyLoc = this.state.startLoc;
              if (refExpressionErrors != null) {
                if (refExpressionErrors.privateKeyLoc === null) {
                  refExpressionErrors.privateKeyLoc = privateKeyLoc;
                }
              } else {
                this.raise(Errors.UnexpectedPrivateField, {
                  at: privateKeyLoc
                });
              }
              key = this.parsePrivateName();
              break;
            }
          default:
            this.unexpected();
        }
      }
      prop.key = key;
      if (type !== 136) {
        prop.computed = false;
      }
    }
    return prop.key;
  }
  initFunction(node, isAsync) {
    node.id = null;
    node.generator = false;
    node.async = isAsync;
  }
  parseMethod(node, isGenerator, isAsync, isConstructor, allowDirectSuper, type, inClassScope = false) {
    this.initFunction(node, isAsync);
    node.generator = isGenerator;
    this.scope.enter(SCOPE_FUNCTION | SCOPE_SUPER | (inClassScope ? SCOPE_CLASS : 0) | (allowDirectSuper ? SCOPE_DIRECT_SUPER : 0));
    this.prodParam.enter(functionFlags(isAsync, node.generator));
    this.parseFunctionParams(node, isConstructor);
    const finishedNode = this.parseFunctionBodyAndFinish(node, type, true);
    this.prodParam.exit();
    this.scope.exit();
    return finishedNode;
  }
  parseArrayLike(close, canBePattern, isTuple, refExpressionErrors) {
    if (isTuple) {
      this.expectPlugin("recordAndTuple");
    }
    const oldInFSharpPipelineDirectBody = this.state.inFSharpPipelineDirectBody;
    this.state.inFSharpPipelineDirectBody = false;
    const node = this.startNode();
    this.next();
    node.elements = this.parseExprList(close, !isTuple, refExpressionErrors, node);
    this.state.inFSharpPipelineDirectBody = oldInFSharpPipelineDirectBody;
    return this.finishNode(node, isTuple ? "TupleExpression" : "ArrayExpression");
  }
  parseArrowExpression(node, params, isAsync, trailingCommaLoc) {
    this.scope.enter(SCOPE_FUNCTION | SCOPE_ARROW);
    let flags = functionFlags(isAsync, false);
    if (!this.match(5) && this.prodParam.hasIn) {
      flags |= PARAM_IN;
    }
    this.prodParam.enter(flags);
    this.initFunction(node, isAsync);
    const oldMaybeInArrowParameters = this.state.maybeInArrowParameters;
    if (params) {
      this.state.maybeInArrowParameters = true;
      this.setArrowFunctionParameters(node, params, trailingCommaLoc);
    }
    this.state.maybeInArrowParameters = false;
    this.parseFunctionBody(node, true);
    this.prodParam.exit();
    this.scope.exit();
    this.state.maybeInArrowParameters = oldMaybeInArrowParameters;
    return this.finishNode(node, "ArrowFunctionExpression");
  }
  setArrowFunctionParameters(node, params, trailingCommaLoc) {
    this.toAssignableList(params, trailingCommaLoc, false);
    node.params = params;
  }
  parseFunctionBodyAndFinish(node, type, isMethod = false) {
    this.parseFunctionBody(node, false, isMethod);
    return this.finishNode(node, type);
  }
  parseFunctionBody(node, allowExpression, isMethod = false) {
    const isExpression = allowExpression && !this.match(5);
    this.expressionScope.enter(newExpressionScope());
    if (isExpression) {
      node.body = this.parseMaybeAssign();
      this.checkParams(node, false, allowExpression, false);
    } else {
      const oldStrict = this.state.strict;
      const oldLabels = this.state.labels;
      this.state.labels = [];
      this.prodParam.enter(this.prodParam.currentFlags() | PARAM_RETURN);
      node.body = this.parseBlock(true, false, hasStrictModeDirective => {
        const nonSimple = !this.isSimpleParamList(node.params);
        if (hasStrictModeDirective && nonSimple) {
          this.raise(Errors.IllegalLanguageModeDirective, {
            at: (node.kind === "method" || node.kind === "constructor") && !!node.key ? node.key.loc.end : node
          });
        }
        const strictModeChanged = !oldStrict && this.state.strict;
        this.checkParams(node, !this.state.strict && !allowExpression && !isMethod && !nonSimple, allowExpression, strictModeChanged);
        if (this.state.strict && node.id) {
          this.checkIdentifier(node.id, BIND_OUTSIDE, strictModeChanged);
        }
      });
      this.prodParam.exit();
      this.state.labels = oldLabels;
    }
    this.expressionScope.exit();
  }
  isSimpleParameter(node) {
    return node.type === "Identifier";
  }
  isSimpleParamList(params) {
    for (let i = 0, len = params.length; i < len; i++) {
      if (!this.isSimpleParameter(params[i])) return false;
    }
    return true;
  }
  checkParams(node, allowDuplicates, isArrowFunction, strictModeChanged = true) {
    const checkClashes = !allowDuplicates && new Set();
    const formalParameters = {
      type: "FormalParameters"
    };
    for (const param of node.params) {
      this.checkLVal(param, {
        in: formalParameters,
        binding: BIND_VAR,
        checkClashes,
        strictModeChanged
      });
    }
  }
  parseExprList(close, allowEmpty, refExpressionErrors, nodeForExtra) {
    const elts = [];
    let first = true;
    while (!this.eat(close)) {
      if (first) {
        first = false;
      } else {
        this.expect(12);
        if (this.match(close)) {
          if (nodeForExtra) {
            this.addTrailingCommaExtraToNode(nodeForExtra);
          }
          this.next();
          break;
        }
      }
      elts.push(this.parseExprListItem(allowEmpty, refExpressionErrors));
    }
    return elts;
  }
  parseExprListItem(allowEmpty, refExpressionErrors, allowPlaceholder) {
    let elt;
    if (this.match(12)) {
      if (!allowEmpty) {
        this.raise(Errors.UnexpectedToken, {
          at: this.state.curPosition(),
          unexpected: ","
        });
      }
      elt = null;
    } else if (this.match(21)) {
      const spreadNodeStartLoc = this.state.startLoc;
      elt = this.parseParenItem(this.parseSpread(refExpressionErrors), spreadNodeStartLoc);
    } else if (this.match(17)) {
      this.expectPlugin("partialApplication");
      if (!allowPlaceholder) {
        this.raise(Errors.UnexpectedArgumentPlaceholder, {
          at: this.state.startLoc
        });
      }
      const node = this.startNode();
      this.next();
      elt = this.finishNode(node, "ArgumentPlaceholder");
    } else {
      elt = this.parseMaybeAssignAllowIn(refExpressionErrors, this.parseParenItem);
    }
    return elt;
  }
  parseIdentifier(liberal) {
    const node = this.startNode();
    const name = this.parseIdentifierName(liberal);
    return this.createIdentifier(node, name);
  }
  createIdentifier(node, name) {
    node.name = name;
    node.loc.identifierName = name;
    return this.finishNode(node, "Identifier");
  }
  parseIdentifierName(liberal) {
    let name;
    const {
      startLoc,
      type
    } = this.state;
    if (tokenIsKeywordOrIdentifier(type)) {
      name = this.state.value;
    } else {
      this.unexpected();
    }
    const tokenIsKeyword = tokenKeywordOrIdentifierIsKeyword(type);
    if (liberal) {
      if (tokenIsKeyword) {
        this.replaceToken(130);
      }
    } else {
      this.checkReservedWord(name, startLoc, tokenIsKeyword, false);
    }
    this.next();
    return name;
  }
  checkReservedWord(word, startLoc, checkKeywords, isBinding) {
    if (word.length > 10) {
      return;
    }
    if (!canBeReservedWord(word)) {
      return;
    }
    if (checkKeywords && isKeyword(word)) {
      this.raise(Errors.UnexpectedKeyword, {
        at: startLoc,
        keyword: word
      });
      return;
    }
    const reservedTest = !this.state.strict ? isReservedWord : isBinding ? isStrictBindReservedWord : isStrictReservedWord;
    if (reservedTest(word, this.inModule)) {
      this.raise(Errors.UnexpectedReservedWord, {
        at: startLoc,
        reservedWord: word
      });
      return;
    } else if (word === "yield") {
      if (this.prodParam.hasYield) {
        this.raise(Errors.YieldBindingIdentifier, {
          at: startLoc
        });
        return;
      }
    } else if (word === "await") {
      if (this.prodParam.hasAwait) {
        this.raise(Errors.AwaitBindingIdentifier, {
          at: startLoc
        });
        return;
      }
      if (this.scope.inStaticBlock) {
        this.raise(Errors.AwaitBindingIdentifierInStaticBlock, {
          at: startLoc
        });
        return;
      }
      this.expressionScope.recordAsyncArrowParametersError({
        at: startLoc
      });
    } else if (word === "arguments") {
      if (this.scope.inClassAndNotInNonArrowFunction) {
        this.raise(Errors.ArgumentsInClass, {
          at: startLoc
        });
        return;
      }
    }
  }
  isAwaitAllowed() {
    if (this.prodParam.hasAwait) return true;
    if (this.options.allowAwaitOutsideFunction && !this.scope.inFunction) {
      return true;
    }
    return false;
  }
  parseAwait(startLoc) {
    const node = this.startNodeAt(startLoc);
    this.expressionScope.recordParameterInitializerError(Errors.AwaitExpressionFormalParameter, {
      at: node
    });
    if (this.eat(55)) {
      this.raise(Errors.ObsoleteAwaitStar, {
        at: node
      });
    }
    if (!this.scope.inFunction && !this.options.allowAwaitOutsideFunction) {
      if (this.isAmbiguousAwait()) {
        this.ambiguousScriptDifferentAst = true;
      } else {
        this.sawUnambiguousESM = true;
      }
    }
    if (!this.state.soloAwait) {
      node.argument = this.parseMaybeUnary(null, true);
    }
    return this.finishNode(node, "AwaitExpression");
  }
  isAmbiguousAwait() {
    if (this.hasPrecedingLineBreak()) return true;
    const {
      type
    } = this.state;
    return type === 53 || type === 10 || type === 0 || tokenIsTemplate(type) || type === 101 && !this.state.containsEsc || type === 135 || type === 56 || this.hasPlugin("v8intrinsic") && type === 54;
  }
  parseYield() {
    const node = this.startNode();
    this.expressionScope.recordParameterInitializerError(Errors.YieldInParameter, {
      at: node
    });
    this.next();
    let delegating = false;
    let argument = null;
    if (!this.hasPrecedingLineBreak()) {
      delegating = this.eat(55);
      switch (this.state.type) {
        case 13:
        case 137:
        case 8:
        case 11:
        case 3:
        case 9:
        case 14:
        case 12:
          if (!delegating) break;
        default:
          argument = this.parseMaybeAssign();
      }
    }
    node.delegate = delegating;
    node.argument = argument;
    return this.finishNode(node, "YieldExpression");
  }
  checkPipelineAtInfixOperator(left, leftStartLoc) {
    if (this.hasPlugin(["pipelineOperator", {
      proposal: "smart"
    }])) {
      if (left.type === "SequenceExpression") {
        this.raise(Errors.PipelineHeadSequenceExpression, {
          at: leftStartLoc
        });
      }
    }
  }
  parseSmartPipelineBodyInStyle(childExpr, startLoc) {
    if (this.isSimpleReference(childExpr)) {
      const bodyNode = this.startNodeAt(startLoc);
      bodyNode.callee = childExpr;
      return this.finishNode(bodyNode, "PipelineBareFunction");
    } else {
      const bodyNode = this.startNodeAt(startLoc);
      this.checkSmartPipeTopicBodyEarlyErrors(startLoc);
      bodyNode.expression = childExpr;
      return this.finishNode(bodyNode, "PipelineTopicExpression");
    }
  }
  isSimpleReference(expression) {
    switch (expression.type) {
      case "MemberExpression":
        return !expression.computed && this.isSimpleReference(expression.object);
      case "Identifier":
        return true;
      default:
        return false;
    }
  }
  checkSmartPipeTopicBodyEarlyErrors(startLoc) {
    if (this.match(19)) {
      throw this.raise(Errors.PipelineBodyNoArrow, {
        at: this.state.startLoc
      });
    }
    if (!this.topicReferenceWasUsedInCurrentContext()) {
      this.raise(Errors.PipelineTopicUnused, {
        at: startLoc
      });
    }
  }
  withTopicBindingContext(callback) {
    const outerContextTopicState = this.state.topicContext;
    this.state.topicContext = {
      maxNumOfResolvableTopics: 1,
      maxTopicIndex: null
    };
    try {
      return callback();
    } finally {
      this.state.topicContext = outerContextTopicState;
    }
  }
  withSmartMixTopicForbiddingContext(callback) {
    if (this.hasPlugin(["pipelineOperator", {
      proposal: "smart"
    }])) {
      const outerContextTopicState = this.state.topicContext;
      this.state.topicContext = {
        maxNumOfResolvableTopics: 0,
        maxTopicIndex: null
      };
      try {
        return callback();
      } finally {
        this.state.topicContext = outerContextTopicState;
      }
    } else {
      return callback();
    }
  }
  withSoloAwaitPermittingContext(callback) {
    const outerContextSoloAwaitState = this.state.soloAwait;
    this.state.soloAwait = true;
    try {
      return callback();
    } finally {
      this.state.soloAwait = outerContextSoloAwaitState;
    }
  }
  allowInAnd(callback) {
    const flags = this.prodParam.currentFlags();
    const prodParamToSet = PARAM_IN & ~flags;
    if (prodParamToSet) {
      this.prodParam.enter(flags | PARAM_IN);
      try {
        return callback();
      } finally {
        this.prodParam.exit();
      }
    }
    return callback();
  }
  disallowInAnd(callback) {
    const flags = this.prodParam.currentFlags();
    const prodParamToClear = PARAM_IN & flags;
    if (prodParamToClear) {
      this.prodParam.enter(flags & ~PARAM_IN);
      try {
        return callback();
      } finally {
        this.prodParam.exit();
      }
    }
    return callback();
  }
  registerTopicReference() {
    this.state.topicContext.maxTopicIndex = 0;
  }
  topicReferenceIsAllowedInCurrentContext() {
    return this.state.topicContext.maxNumOfResolvableTopics >= 1;
  }
  topicReferenceWasUsedInCurrentContext() {
    return this.state.topicContext.maxTopicIndex != null && this.state.topicContext.maxTopicIndex >= 0;
  }
  parseFSharpPipelineBody(prec) {
    const startLoc = this.state.startLoc;
    this.state.potentialArrowAt = this.state.start;
    const oldInFSharpPipelineDirectBody = this.state.inFSharpPipelineDirectBody;
    this.state.inFSharpPipelineDirectBody = true;
    const ret = this.parseExprOp(this.parseMaybeUnaryOrPrivate(), startLoc, prec);
    this.state.inFSharpPipelineDirectBody = oldInFSharpPipelineDirectBody;
    return ret;
  }
  parseModuleExpression() {
    this.expectPlugin("moduleBlocks");
    const node = this.startNode();
    this.next();
    if (!this.match(5)) {
      this.unexpected(null, 5);
    }
    const program = this.startNodeAt(this.state.endLoc);
    this.next();
    const revertScopes = this.initializeScopes(true);
    this.enterInitialScopes();
    try {
      node.body = this.parseProgram(program, 8, "module");
    } finally {
      revertScopes();
    }
    return this.finishNode(node, "ModuleExpression");
  }
  parsePropertyNamePrefixOperator(prop) {}
}
const loopLabel = {
    kind: "loop"
  },
  switchLabel = {
    kind: "switch"
  };
const loneSurrogate = /[\uD800-\uDFFF]/u;
const keywordRelationalOperator = /in(?:stanceof)?/y;
function babel7CompatTokens(tokens, input) {
  for (let i = 0; i < tokens.length; i++) {
    const token = tokens[i];
    const {
      type
    } = token;
    if (typeof type === "number") {
      {
        if (type === 136) {
          const {
            loc,
            start,
            value,
            end
          } = token;
          const hashEndPos = start + 1;
          const hashEndLoc = createPositionWithColumnOffset(loc.start, 1);
          tokens.splice(i, 1, new Token({
            type: getExportedToken(27),
            value: "#",
            start: start,
            end: hashEndPos,
            startLoc: loc.start,
            endLoc: hashEndLoc
          }), new Token({
            type: getExportedToken(130),
            value: value,
            start: hashEndPos,
            end: end,
            startLoc: hashEndLoc,
            endLoc: loc.end
          }));
          i++;
          continue;
        }
        if (tokenIsTemplate(type)) {
          const {
            loc,
            start,
            value,
            end
          } = token;
          const backquoteEnd = start + 1;
          const backquoteEndLoc = createPositionWithColumnOffset(loc.start, 1);
          let startToken;
          if (input.charCodeAt(start) === 96) {
            startToken = new Token({
              type: getExportedToken(22),
              value: "`",
              start: start,
              end: backquoteEnd,
              startLoc: loc.start,
              endLoc: backquoteEndLoc
            });
          } else {
            startToken = new Token({
              type: getExportedToken(8),
              value: "}",
              start: start,
              end: backquoteEnd,
              startLoc: loc.start,
              endLoc: backquoteEndLoc
            });
          }
          let templateValue, templateElementEnd, templateElementEndLoc, endToken;
          if (type === 24) {
            templateElementEnd = end - 1;
            templateElementEndLoc = createPositionWithColumnOffset(loc.end, -1);
            templateValue = value === null ? null : value.slice(1, -1);
            endToken = new Token({
              type: getExportedToken(22),
              value: "`",
              start: templateElementEnd,
              end: end,
              startLoc: templateElementEndLoc,
              endLoc: loc.end
            });
          } else {
            templateElementEnd = end - 2;
            templateElementEndLoc = createPositionWithColumnOffset(loc.end, -2);
            templateValue = value === null ? null : value.slice(1, -2);
            endToken = new Token({
              type: getExportedToken(23),
              value: "${",
              start: templateElementEnd,
              end: end,
              startLoc: templateElementEndLoc,
              endLoc: loc.end
            });
          }
          tokens.splice(i, 1, startToken, new Token({
            type: getExportedToken(20),
            value: templateValue,
            start: backquoteEnd,
            end: templateElementEnd,
            startLoc: backquoteEndLoc,
            endLoc: templateElementEndLoc
          }), endToken);
          i += 2;
          continue;
        }
      }
      token.type = getExportedToken(type);
    }
  }
  return tokens;
}
class StatementParser extends ExpressionParser {
  parseTopLevel(file, program) {
    file.program = this.parseProgram(program);
    file.comments = this.state.comments;
    if (this.options.tokens) {
      file.tokens = babel7CompatTokens(this.tokens, this.input);
    }
    return this.finishNode(file, "File");
  }
  parseProgram(program, end = 137, sourceType = this.options.sourceType) {
    program.sourceType = sourceType;
    program.interpreter = this.parseInterpreterDirective();
    this.parseBlockBody(program, true, true, end);
    if (this.inModule && !this.options.allowUndeclaredExports && this.scope.undefinedExports.size > 0) {
      for (const [localName, at] of Array.from(this.scope.undefinedExports)) {
        this.raise(Errors.ModuleExportUndefined, {
          at,
          localName
        });
      }
    }
    let finishedProgram;
    if (end === 137) {
      finishedProgram = this.finishNode(program, "Program");
    } else {
      finishedProgram = this.finishNodeAt(program, "Program", createPositionWithColumnOffset(this.state.startLoc, -1));
    }
    return finishedProgram;
  }
  stmtToDirective(stmt) {
    const directive = stmt;
    directive.type = "Directive";
    directive.value = directive.expression;
    delete directive.expression;
    const directiveLiteral = directive.value;
    const expressionValue = directiveLiteral.value;
    const raw = this.input.slice(directiveLiteral.start, directiveLiteral.end);
    const val = directiveLiteral.value = raw.slice(1, -1);
    this.addExtra(directiveLiteral, "raw", raw);
    this.addExtra(directiveLiteral, "rawValue", val);
    this.addExtra(directiveLiteral, "expressionValue", expressionValue);
    directiveLiteral.type = "DirectiveLiteral";
    return directive;
  }
  parseInterpreterDirective() {
    if (!this.match(28)) {
      return null;
    }
    const node = this.startNode();
    node.value = this.state.value;
    this.next();
    return this.finishNode(node, "InterpreterDirective");
  }
  isLet() {
    if (!this.isContextual(99)) {
      return false;
    }
    return this.hasFollowingBindingAtom();
  }
  chStartsBindingIdentifier(ch, pos) {
    if (isIdentifierStart(ch)) {
      keywordRelationalOperator.lastIndex = pos;
      if (keywordRelationalOperator.test(this.input)) {
        const endCh = this.codePointAtPos(keywordRelationalOperator.lastIndex);
        if (!isIdentifierChar(endCh) && endCh !== 92) {
          return false;
        }
      }
      return true;
    } else if (ch === 92) {
      return true;
    } else {
      return false;
    }
  }
  chStartsBindingPattern(ch) {
    return ch === 91 || ch === 123;
  }
  hasFollowingBindingAtom() {
    const next = this.nextTokenStart();
    const nextCh = this.codePointAtPos(next);
    return this.chStartsBindingPattern(nextCh) || this.chStartsBindingIdentifier(nextCh, next);
  }
  hasFollowingBindingIdentifier() {
    const next = this.nextTokenStart();
    const nextCh = this.codePointAtPos(next);
    return this.chStartsBindingIdentifier(nextCh, next);
  }
  startsUsingForOf() {
    const lookahead = this.lookahead();
    if (lookahead.type === 101 && !lookahead.containsEsc) {
      return false;
    } else {
      this.expectPlugin("explicitResourceManagement");
      return true;
    }
  }
  parseModuleItem() {
    return this.parseStatementLike(1 | 2 | 4 | 8);
  }
  parseStatementListItem() {
    return this.parseStatementLike(2 | 4 | (!this.options.annexB || this.state.strict ? 0 : 8));
  }
  parseStatementOrSloppyAnnexBFunctionDeclaration(allowLabeledFunction = false) {
    let flags = 0;
    if (this.options.annexB && !this.state.strict) {
      flags |= 4;
      if (allowLabeledFunction) {
        flags |= 8;
      }
    }
    return this.parseStatementLike(flags);
  }
  parseStatement() {
    return this.parseStatementLike(0);
  }
  parseStatementLike(flags) {
    let decorators = null;
    if (this.match(26)) {
      decorators = this.parseDecorators(true);
    }
    return this.parseStatementContent(flags, decorators);
  }
  parseStatementContent(flags, decorators) {
    const starttype = this.state.type;
    const node = this.startNode();
    const allowDeclaration = !!(flags & 2);
    const allowFunctionDeclaration = !!(flags & 4);
    const topLevel = flags & 1;
    switch (starttype) {
      case 60:
        return this.parseBreakContinueStatement(node, true);
      case 63:
        return this.parseBreakContinueStatement(node, false);
      case 64:
        return this.parseDebuggerStatement(node);
      case 90:
        return this.parseDoWhileStatement(node);
      case 91:
        return this.parseForStatement(node);
      case 68:
        if (this.lookaheadCharCode() === 46) break;
        if (!allowFunctionDeclaration) {
          this.raise(this.state.strict ? Errors.StrictFunction : this.options.annexB ? Errors.SloppyFunctionAnnexB : Errors.SloppyFunction, {
            at: this.state.startLoc
          });
        }
        return this.parseFunctionStatement(node, false, !allowDeclaration && allowFunctionDeclaration);
      case 80:
        if (!allowDeclaration) this.unexpected();
        return this.parseClass(this.maybeTakeDecorators(decorators, node), true);
      case 69:
        return this.parseIfStatement(node);
      case 70:
        return this.parseReturnStatement(node);
      case 71:
        return this.parseSwitchStatement(node);
      case 72:
        return this.parseThrowStatement(node);
      case 73:
        return this.parseTryStatement(node);
      case 105:
        if (this.hasFollowingLineBreak() || this.state.containsEsc || !this.hasFollowingBindingIdentifier()) {
          break;
        }
        this.expectPlugin("explicitResourceManagement");
        if (!this.scope.inModule && this.scope.inTopLevel) {
          this.raise(Errors.UnexpectedUsingDeclaration, {
            at: this.state.startLoc
          });
        } else if (!allowDeclaration) {
          this.raise(Errors.UnexpectedLexicalDeclaration, {
            at: this.state.startLoc
          });
        }
        return this.parseVarStatement(node, "using");
      case 99:
        {
          if (this.state.containsEsc) {
            break;
          }
          const next = this.nextTokenStart();
          const nextCh = this.codePointAtPos(next);
          if (nextCh !== 91) {
            if (!allowDeclaration && this.hasFollowingLineBreak()) break;
            if (!this.chStartsBindingIdentifier(nextCh, next) && nextCh !== 123) {
              break;
            }
          }
        }
      case 75:
        {
          if (!allowDeclaration) {
            this.raise(Errors.UnexpectedLexicalDeclaration, {
              at: this.state.startLoc
            });
          }
        }
      case 74:
        {
          const kind = this.state.value;
          return this.parseVarStatement(node, kind);
        }
      case 92:
        return this.parseWhileStatement(node);
      case 76:
        return this.parseWithStatement(node);
      case 5:
        return this.parseBlock();
      case 13:
        return this.parseEmptyStatement(node);
      case 83:
        {
          const nextTokenCharCode = this.lookaheadCharCode();
          if (nextTokenCharCode === 40 || nextTokenCharCode === 46) {
            break;
          }
        }
      case 82:
        {
          if (!this.options.allowImportExportEverywhere && !topLevel) {
            this.raise(Errors.UnexpectedImportExport, {
              at: this.state.startLoc
            });
          }
          this.next();
          let result;
          if (starttype === 83) {
            result = this.parseImport(node);
            if (result.type === "ImportDeclaration" && (!result.importKind || result.importKind === "value")) {
              this.sawUnambiguousESM = true;
            }
          } else {
            result = this.parseExport(node, decorators);
            if (result.type === "ExportNamedDeclaration" && (!result.exportKind || result.exportKind === "value") || result.type === "ExportAllDeclaration" && (!result.exportKind || result.exportKind === "value") || result.type === "ExportDefaultDeclaration") {
              this.sawUnambiguousESM = true;
            }
          }
          this.assertModuleNodeAllowed(result);
          return result;
        }
      default:
        {
          if (this.isAsyncFunction()) {
            if (!allowDeclaration) {
              this.raise(Errors.AsyncFunctionInSingleStatementContext, {
                at: this.state.startLoc
              });
            }
            this.next();
            return this.parseFunctionStatement(node, true, !allowDeclaration && allowFunctionDeclaration);
          }
        }
    }
    const maybeName = this.state.value;
    const expr = this.parseExpression();
    if (tokenIsIdentifier(starttype) && expr.type === "Identifier" && this.eat(14)) {
      return this.parseLabeledStatement(node, maybeName, expr, flags);
    } else {
      return this.parseExpressionStatement(node, expr, decorators);
    }
  }
  assertModuleNodeAllowed(node) {
    if (!this.options.allowImportExportEverywhere && !this.inModule) {
      this.raise(Errors.ImportOutsideModule, {
        at: node
      });
    }
  }
  decoratorsEnabledBeforeExport() {
    if (this.hasPlugin("decorators-legacy")) return true;
    return this.hasPlugin("decorators") && this.getPluginOption("decorators", "decoratorsBeforeExport") !== false;
  }
  maybeTakeDecorators(maybeDecorators, classNode, exportNode) {
    if (maybeDecorators) {
      if (classNode.decorators && classNode.decorators.length > 0) {
        if (typeof this.getPluginOption("decorators", "decoratorsBeforeExport") !== "boolean") {
          this.raise(Errors.DecoratorsBeforeAfterExport, {
            at: classNode.decorators[0]
          });
        }
        classNode.decorators.unshift(...maybeDecorators);
      } else {
        classNode.decorators = maybeDecorators;
      }
      this.resetStartLocationFromNode(classNode, maybeDecorators[0]);
      if (exportNode) this.resetStartLocationFromNode(exportNode, classNode);
    }
    return classNode;
  }
  canHaveLeadingDecorator() {
    return this.match(80);
  }
  parseDecorators(allowExport) {
    const decorators = [];
    do {
      decorators.push(this.parseDecorator());
    } while (this.match(26));
    if (this.match(82)) {
      if (!allowExport) {
        this.unexpected();
      }
      if (!this.decoratorsEnabledBeforeExport()) {
        this.raise(Errors.DecoratorExportClass, {
          at: this.state.startLoc
        });
      }
    } else if (!this.canHaveLeadingDecorator()) {
      throw this.raise(Errors.UnexpectedLeadingDecorator, {
        at: this.state.startLoc
      });
    }
    return decorators;
  }
  parseDecorator() {
    this.expectOnePlugin(["decorators", "decorators-legacy"]);
    const node = this.startNode();
    this.next();
    if (this.hasPlugin("decorators")) {
      const startLoc = this.state.startLoc;
      let expr;
      if (this.match(10)) {
        const startLoc = this.state.startLoc;
        this.next();
        expr = this.parseExpression();
        this.expect(11);
        expr = this.wrapParenthesis(startLoc, expr);
        const paramsStartLoc = this.state.startLoc;
        node.expression = this.parseMaybeDecoratorArguments(expr);
        if (this.getPluginOption("decorators", "allowCallParenthesized") === false && node.expression !== expr) {
          this.raise(Errors.DecoratorArgumentsOutsideParentheses, {
            at: paramsStartLoc
          });
        }
      } else {
        expr = this.parseIdentifier(false);
        while (this.eat(16)) {
          const node = this.startNodeAt(startLoc);
          node.object = expr;
          if (this.match(136)) {
            this.classScope.usePrivateName(this.state.value, this.state.startLoc);
            node.property = this.parsePrivateName();
          } else {
            node.property = this.parseIdentifier(true);
          }
          node.computed = false;
          expr = this.finishNode(node, "MemberExpression");
        }
        node.expression = this.parseMaybeDecoratorArguments(expr);
      }
    } else {
      node.expression = this.parseExprSubscripts();
    }
    return this.finishNode(node, "Decorator");
  }
  parseMaybeDecoratorArguments(expr) {
    if (this.eat(10)) {
      const node = this.startNodeAtNode(expr);
      node.callee = expr;
      node.arguments = this.parseCallExpressionArguments(11, false);
      this.toReferencedList(node.arguments);
      return this.finishNode(node, "CallExpression");
    }
    return expr;
  }
  parseBreakContinueStatement(node, isBreak) {
    this.next();
    if (this.isLineTerminator()) {
      node.label = null;
    } else {
      node.label = this.parseIdentifier();
      this.semicolon();
    }
    this.verifyBreakContinue(node, isBreak);
    return this.finishNode(node, isBreak ? "BreakStatement" : "ContinueStatement");
  }
  verifyBreakContinue(node, isBreak) {
    let i;
    for (i = 0; i < this.state.labels.length; ++i) {
      const lab = this.state.labels[i];
      if (node.label == null || lab.name === node.label.name) {
        if (lab.kind != null && (isBreak || lab.kind === "loop")) break;
        if (node.label && isBreak) break;
      }
    }
    if (i === this.state.labels.length) {
      const type = isBreak ? "BreakStatement" : "ContinueStatement";
      this.raise(Errors.IllegalBreakContinue, {
        at: node,
        type
      });
    }
  }
  parseDebuggerStatement(node) {
    this.next();
    this.semicolon();
    return this.finishNode(node, "DebuggerStatement");
  }
  parseHeaderExpression() {
    this.expect(10);
    const val = this.parseExpression();
    this.expect(11);
    return val;
  }
  parseDoWhileStatement(node) {
    this.next();
    this.state.labels.push(loopLabel);
    node.body = this.withSmartMixTopicForbiddingContext(() => this.parseStatement());
    this.state.labels.pop();
    this.expect(92);
    node.test = this.parseHeaderExpression();
    this.eat(13);
    return this.finishNode(node, "DoWhileStatement");
  }
  parseForStatement(node) {
    this.next();
    this.state.labels.push(loopLabel);
    let awaitAt = null;
    if (this.isAwaitAllowed() && this.eatContextual(96)) {
      awaitAt = this.state.lastTokStartLoc;
    }
    this.scope.enter(SCOPE_OTHER);
    this.expect(10);
    if (this.match(13)) {
      if (awaitAt !== null) {
        this.unexpected(awaitAt);
      }
      return this.parseFor(node, null);
    }
    const startsWithLet = this.isContextual(99);
    const startsWithUsing = this.isContextual(105) && !this.hasFollowingLineBreak();
    const isLetOrUsing = startsWithLet && this.hasFollowingBindingAtom() || startsWithUsing && this.hasFollowingBindingIdentifier() && this.startsUsingForOf();
    if (this.match(74) || this.match(75) || isLetOrUsing) {
      const initNode = this.startNode();
      const kind = this.state.value;
      this.next();
      this.parseVar(initNode, true, kind);
      const init = this.finishNode(initNode, "VariableDeclaration");
      const isForIn = this.match(58);
      if (isForIn && startsWithUsing) {
        this.raise(Errors.ForInUsing, {
          at: init
        });
      }
      if ((isForIn || this.isContextual(101)) && init.declarations.length === 1) {
        return this.parseForIn(node, init, awaitAt);
      }
      if (awaitAt !== null) {
        this.unexpected(awaitAt);
      }
      return this.parseFor(node, init);
    }
    const startsWithAsync = this.isContextual(95);
    const refExpressionErrors = new ExpressionErrors();
    const init = this.parseExpression(true, refExpressionErrors);
    const isForOf = this.isContextual(101);
    if (isForOf) {
      if (startsWithLet) {
        this.raise(Errors.ForOfLet, {
          at: init
        });
      }
      if (awaitAt === null && startsWithAsync && init.type === "Identifier") {
        this.raise(Errors.ForOfAsync, {
          at: init
        });
      }
    }
    if (isForOf || this.match(58)) {
      this.checkDestructuringPrivate(refExpressionErrors);
      this.toAssignable(init, true);
      const type = isForOf ? "ForOfStatement" : "ForInStatement";
      this.checkLVal(init, {
        in: {
          type
        }
      });
      return this.parseForIn(node, init, awaitAt);
    } else {
      this.checkExpressionErrors(refExpressionErrors, true);
    }
    if (awaitAt !== null) {
      this.unexpected(awaitAt);
    }
    return this.parseFor(node, init);
  }
  parseFunctionStatement(node, isAsync, isHangingDeclaration) {
    this.next();
    return this.parseFunction(node, 1 | (isHangingDeclaration ? 2 : 0) | (isAsync ? 8 : 0));
  }
  parseIfStatement(node) {
    this.next();
    node.test = this.parseHeaderExpression();
    node.consequent = this.parseStatementOrSloppyAnnexBFunctionDeclaration();
    node.alternate = this.eat(66) ? this.parseStatementOrSloppyAnnexBFunctionDeclaration() : null;
    return this.finishNode(node, "IfStatement");
  }
  parseReturnStatement(node) {
    if (!this.prodParam.hasReturn && !this.options.allowReturnOutsideFunction) {
      this.raise(Errors.IllegalReturn, {
        at: this.state.startLoc
      });
    }
    this.next();
    if (this.isLineTerminator()) {
      node.argument = null;
    } else {
      node.argument = this.parseExpression();
      this.semicolon();
    }
    return this.finishNode(node, "ReturnStatement");
  }
  parseSwitchStatement(node) {
    this.next();
    node.discriminant = this.parseHeaderExpression();
    const cases = node.cases = [];
    this.expect(5);
    this.state.labels.push(switchLabel);
    this.scope.enter(SCOPE_OTHER);
    let cur;
    for (let sawDefault; !this.match(8);) {
      if (this.match(61) || this.match(65)) {
        const isCase = this.match(61);
        if (cur) this.finishNode(cur, "SwitchCase");
        cases.push(cur = this.startNode());
        cur.consequent = [];
        this.next();
        if (isCase) {
          cur.test = this.parseExpression();
        } else {
          if (sawDefault) {
            this.raise(Errors.MultipleDefaultsInSwitch, {
              at: this.state.lastTokStartLoc
            });
          }
          sawDefault = true;
          cur.test = null;
        }
        this.expect(14);
      } else {
        if (cur) {
          cur.consequent.push(this.parseStatementListItem());
        } else {
          this.unexpected();
        }
      }
    }
    this.scope.exit();
    if (cur) this.finishNode(cur, "SwitchCase");
    this.next();
    this.state.labels.pop();
    return this.finishNode(node, "SwitchStatement");
  }
  parseThrowStatement(node) {
    this.next();
    if (this.hasPrecedingLineBreak()) {
      this.raise(Errors.NewlineAfterThrow, {
        at: this.state.lastTokEndLoc
      });
    }
    node.argument = this.parseExpression();
    this.semicolon();
    return this.finishNode(node, "ThrowStatement");
  }
  parseCatchClauseParam() {
    const param = this.parseBindingAtom();
    this.scope.enter(this.options.annexB && param.type === "Identifier" ? SCOPE_SIMPLE_CATCH : 0);
    this.checkLVal(param, {
      in: {
        type: "CatchClause"
      },
      binding: BIND_CATCH_PARAM
    });
    return param;
  }
  parseTryStatement(node) {
    this.next();
    node.block = this.parseBlock();
    node.handler = null;
    if (this.match(62)) {
      const clause = this.startNode();
      this.next();
      if (this.match(10)) {
        this.expect(10);
        clause.param = this.parseCatchClauseParam();
        this.expect(11);
      } else {
        clause.param = null;
        this.scope.enter(SCOPE_OTHER);
      }
      clause.body = this.withSmartMixTopicForbiddingContext(() => this.parseBlock(false, false));
      this.scope.exit();
      node.handler = this.finishNode(clause, "CatchClause");
    }
    node.finalizer = this.eat(67) ? this.parseBlock() : null;
    if (!node.handler && !node.finalizer) {
      this.raise(Errors.NoCatchOrFinally, {
        at: node
      });
    }
    return this.finishNode(node, "TryStatement");
  }
  parseVarStatement(node, kind, allowMissingInitializer = false) {
    this.next();
    this.parseVar(node, false, kind, allowMissingInitializer);
    this.semicolon();
    return this.finishNode(node, "VariableDeclaration");
  }
  parseWhileStatement(node) {
    this.next();
    node.test = this.parseHeaderExpression();
    this.state.labels.push(loopLabel);
    node.body = this.withSmartMixTopicForbiddingContext(() => this.parseStatement());
    this.state.labels.pop();
    return this.finishNode(node, "WhileStatement");
  }
  parseWithStatement(node) {
    if (this.state.strict) {
      this.raise(Errors.StrictWith, {
        at: this.state.startLoc
      });
    }
    this.next();
    node.object = this.parseHeaderExpression();
    node.body = this.withSmartMixTopicForbiddingContext(() => this.parseStatement());
    return this.finishNode(node, "WithStatement");
  }
  parseEmptyStatement(node) {
    this.next();
    return this.finishNode(node, "EmptyStatement");
  }
  parseLabeledStatement(node, maybeName, expr, flags) {
    for (const label of this.state.labels) {
      if (label.name === maybeName) {
        this.raise(Errors.LabelRedeclaration, {
          at: expr,
          labelName: maybeName
        });
      }
    }
    const kind = tokenIsLoop(this.state.type) ? "loop" : this.match(71) ? "switch" : null;
    for (let i = this.state.labels.length - 1; i >= 0; i--) {
      const label = this.state.labels[i];
      if (label.statementStart === node.start) {
        label.statementStart = this.state.start;
        label.kind = kind;
      } else {
        break;
      }
    }
    this.state.labels.push({
      name: maybeName,
      kind: kind,
      statementStart: this.state.start
    });
    node.body = flags & 8 ? this.parseStatementOrSloppyAnnexBFunctionDeclaration(true) : this.parseStatement();
    this.state.labels.pop();
    node.label = expr;
    return this.finishNode(node, "LabeledStatement");
  }
  parseExpressionStatement(node, expr, decorators) {
    node.expression = expr;
    this.semicolon();
    return this.finishNode(node, "ExpressionStatement");
  }
  parseBlock(allowDirectives = false, createNewLexicalScope = true, afterBlockParse) {
    const node = this.startNode();
    if (allowDirectives) {
      this.state.strictErrors.clear();
    }
    this.expect(5);
    if (createNewLexicalScope) {
      this.scope.enter(SCOPE_OTHER);
    }
    this.parseBlockBody(node, allowDirectives, false, 8, afterBlockParse);
    if (createNewLexicalScope) {
      this.scope.exit();
    }
    return this.finishNode(node, "BlockStatement");
  }
  isValidDirective(stmt) {
    return stmt.type === "ExpressionStatement" && stmt.expression.type === "StringLiteral" && !stmt.expression.extra.parenthesized;
  }
  parseBlockBody(node, allowDirectives, topLevel, end, afterBlockParse) {
    const body = node.body = [];
    const directives = node.directives = [];
    this.parseBlockOrModuleBlockBody(body, allowDirectives ? directives : undefined, topLevel, end, afterBlockParse);
  }
  parseBlockOrModuleBlockBody(body, directives, topLevel, end, afterBlockParse) {
    const oldStrict = this.state.strict;
    let hasStrictModeDirective = false;
    let parsedNonDirective = false;
    while (!this.match(end)) {
      const stmt = topLevel ? this.parseModuleItem() : this.parseStatementListItem();
      if (directives && !parsedNonDirective) {
        if (this.isValidDirective(stmt)) {
          const directive = this.stmtToDirective(stmt);
          directives.push(directive);
          if (!hasStrictModeDirective && directive.value.value === "use strict") {
            hasStrictModeDirective = true;
            this.setStrict(true);
          }
          continue;
        }
        parsedNonDirective = true;
        this.state.strictErrors.clear();
      }
      body.push(stmt);
    }
    if (afterBlockParse) {
      afterBlockParse.call(this, hasStrictModeDirective);
    }
    if (!oldStrict) {
      this.setStrict(false);
    }
    this.next();
  }
  parseFor(node, init) {
    node.init = init;
    this.semicolon(false);
    node.test = this.match(13) ? null : this.parseExpression();
    this.semicolon(false);
    node.update = this.match(11) ? null : this.parseExpression();
    this.expect(11);
    node.body = this.withSmartMixTopicForbiddingContext(() => this.parseStatement());
    this.scope.exit();
    this.state.labels.pop();
    return this.finishNode(node, "ForStatement");
  }
  parseForIn(node, init, awaitAt) {
    const isForIn = this.match(58);
    this.next();
    if (isForIn) {
      if (awaitAt !== null) this.unexpected(awaitAt);
    } else {
      node.await = awaitAt !== null;
    }
    if (init.type === "VariableDeclaration" && init.declarations[0].init != null && (!isForIn || !this.options.annexB || this.state.strict || init.kind !== "var" || init.declarations[0].id.type !== "Identifier")) {
      this.raise(Errors.ForInOfLoopInitializer, {
        at: init,
        type: isForIn ? "ForInStatement" : "ForOfStatement"
      });
    }
    if (init.type === "AssignmentPattern") {
      this.raise(Errors.InvalidLhs, {
        at: init,
        ancestor: {
          type: "ForStatement"
        }
      });
    }
    node.left = init;
    node.right = isForIn ? this.parseExpression() : this.parseMaybeAssignAllowIn();
    this.expect(11);
    node.body = this.withSmartMixTopicForbiddingContext(() => this.parseStatement());
    this.scope.exit();
    this.state.labels.pop();
    return this.finishNode(node, isForIn ? "ForInStatement" : "ForOfStatement");
  }
  parseVar(node, isFor, kind, allowMissingInitializer = false) {
    const declarations = node.declarations = [];
    node.kind = kind;
    for (;;) {
      const decl = this.startNode();
      this.parseVarId(decl, kind);
      decl.init = !this.eat(29) ? null : isFor ? this.parseMaybeAssignDisallowIn() : this.parseMaybeAssignAllowIn();
      if (decl.init === null && !allowMissingInitializer) {
        if (decl.id.type !== "Identifier" && !(isFor && (this.match(58) || this.isContextual(101)))) {
          this.raise(Errors.DeclarationMissingInitializer, {
            at: this.state.lastTokEndLoc,
            kind: "destructuring"
          });
        } else if (kind === "const" && !(this.match(58) || this.isContextual(101))) {
          this.raise(Errors.DeclarationMissingInitializer, {
            at: this.state.lastTokEndLoc,
            kind: "const"
          });
        }
      }
      declarations.push(this.finishNode(decl, "VariableDeclarator"));
      if (!this.eat(12)) break;
    }
    return node;
  }
  parseVarId(decl, kind) {
    if (kind === "using" && !this.inModule && this.match(96)) {
      this.raise(Errors.AwaitInUsingBinding, {
        at: this.state.startLoc
      });
    }
    const id = this.parseBindingAtom();
    this.checkLVal(id, {
      in: {
        type: "VariableDeclarator"
      },
      binding: kind === "var" ? BIND_VAR : BIND_LEXICAL
    });
    decl.id = id;
  }
  parseAsyncFunctionExpression(node) {
    return this.parseFunction(node, 8);
  }
  parseFunction(node, flags = 0) {
    const hangingDeclaration = flags & 2;
    const isDeclaration = !!(flags & 1);
    const requireId = isDeclaration && !(flags & 4);
    const isAsync = !!(flags & 8);
    this.initFunction(node, isAsync);
    if (this.match(55)) {
      if (hangingDeclaration) {
        this.raise(Errors.GeneratorInSingleStatementContext, {
          at: this.state.startLoc
        });
      }
      this.next();
      node.generator = true;
    }
    if (isDeclaration) {
      node.id = this.parseFunctionId(requireId);
    }
    const oldMaybeInArrowParameters = this.state.maybeInArrowParameters;
    this.state.maybeInArrowParameters = false;
    this.scope.enter(SCOPE_FUNCTION);
    this.prodParam.enter(functionFlags(isAsync, node.generator));
    if (!isDeclaration) {
      node.id = this.parseFunctionId();
    }
    this.parseFunctionParams(node, false);
    this.withSmartMixTopicForbiddingContext(() => {
      this.parseFunctionBodyAndFinish(node, isDeclaration ? "FunctionDeclaration" : "FunctionExpression");
    });
    this.prodParam.exit();
    this.scope.exit();
    if (isDeclaration && !hangingDeclaration) {
      this.registerFunctionStatementId(node);
    }
    this.state.maybeInArrowParameters = oldMaybeInArrowParameters;
    return node;
  }
  parseFunctionId(requireId) {
    return requireId || tokenIsIdentifier(this.state.type) ? this.parseIdentifier() : null;
  }
  parseFunctionParams(node, isConstructor) {
    this.expect(10);
    this.expressionScope.enter(newParameterDeclarationScope());
    node.params = this.parseBindingList(11, 41, 2 | (isConstructor ? 4 : 0));
    this.expressionScope.exit();
  }
  registerFunctionStatementId(node) {
    if (!node.id) return;
    this.scope.declareName(node.id.name, !this.options.annexB || this.state.strict || node.generator || node.async ? this.scope.treatFunctionsAsVar ? BIND_VAR : BIND_LEXICAL : BIND_FUNCTION, node.id.loc.start);
  }
  parseClass(node, isStatement, optionalId) {
    this.next();
    const oldStrict = this.state.strict;
    this.state.strict = true;
    this.parseClassId(node, isStatement, optionalId);
    this.parseClassSuper(node);
    node.body = this.parseClassBody(!!node.superClass, oldStrict);
    return this.finishNode(node, isStatement ? "ClassDeclaration" : "ClassExpression");
  }
  isClassProperty() {
    return this.match(29) || this.match(13) || this.match(8);
  }
  isClassMethod() {
    return this.match(10);
  }
  isNonstaticConstructor(method) {
    return !method.computed && !method.static && (method.key.name === "constructor" || method.key.value === "constructor");
  }
  parseClassBody(hadSuperClass, oldStrict) {
    this.classScope.enter();
    const state = {
      hadConstructor: false,
      hadSuperClass
    };
    let decorators = [];
    const classBody = this.startNode();
    classBody.body = [];
    this.expect(5);
    this.withSmartMixTopicForbiddingContext(() => {
      while (!this.match(8)) {
        if (this.eat(13)) {
          if (decorators.length > 0) {
            throw this.raise(Errors.DecoratorSemicolon, {
              at: this.state.lastTokEndLoc
            });
          }
          continue;
        }
        if (this.match(26)) {
          decorators.push(this.parseDecorator());
          continue;
        }
        const member = this.startNode();
        if (decorators.length) {
          member.decorators = decorators;
          this.resetStartLocationFromNode(member, decorators[0]);
          decorators = [];
        }
        this.parseClassMember(classBody, member, state);
        if (member.kind === "constructor" && member.decorators && member.decorators.length > 0) {
          this.raise(Errors.DecoratorConstructor, {
            at: member
          });
        }
      }
    });
    this.state.strict = oldStrict;
    this.next();
    if (decorators.length) {
      throw this.raise(Errors.TrailingDecorator, {
        at: this.state.startLoc
      });
    }
    this.classScope.exit();
    return this.finishNode(classBody, "ClassBody");
  }
  parseClassMemberFromModifier(classBody, member) {
    const key = this.parseIdentifier(true);
    if (this.isClassMethod()) {
      const method = member;
      method.kind = "method";
      method.computed = false;
      method.key = key;
      method.static = false;
      this.pushClassMethod(classBody, method, false, false, false, false);
      return true;
    } else if (this.isClassProperty()) {
      const prop = member;
      prop.computed = false;
      prop.key = key;
      prop.static = false;
      classBody.body.push(this.parseClassProperty(prop));
      return true;
    }
    this.resetPreviousNodeTrailingComments(key);
    return false;
  }
  parseClassMember(classBody, member, state) {
    const isStatic = this.isContextual(104);
    if (isStatic) {
      if (this.parseClassMemberFromModifier(classBody, member)) {
        return;
      }
      if (this.eat(5)) {
        this.parseClassStaticBlock(classBody, member);
        return;
      }
    }
    this.parseClassMemberWithIsStatic(classBody, member, state, isStatic);
  }
  parseClassMemberWithIsStatic(classBody, member, state, isStatic) {
    const publicMethod = member;
    const privateMethod = member;
    const publicProp = member;
    const privateProp = member;
    const accessorProp = member;
    const method = publicMethod;
    const publicMember = publicMethod;
    member.static = isStatic;
    this.parsePropertyNamePrefixOperator(member);
    if (this.eat(55)) {
      method.kind = "method";
      const isPrivateName = this.match(136);
      this.parseClassElementName(method);
      if (isPrivateName) {
        this.pushClassPrivateMethod(classBody, privateMethod, true, false);
        return;
      }
      if (this.isNonstaticConstructor(publicMethod)) {
        this.raise(Errors.ConstructorIsGenerator, {
          at: publicMethod.key
        });
      }
      this.pushClassMethod(classBody, publicMethod, true, false, false, false);
      return;
    }
    const isContextual = tokenIsIdentifier(this.state.type) && !this.state.containsEsc;
    const isPrivate = this.match(136);
    const key = this.parseClassElementName(member);
    const maybeQuestionTokenStartLoc = this.state.startLoc;
    this.parsePostMemberNameModifiers(publicMember);
    if (this.isClassMethod()) {
      method.kind = "method";
      if (isPrivate) {
        this.pushClassPrivateMethod(classBody, privateMethod, false, false);
        return;
      }
      const isConstructor = this.isNonstaticConstructor(publicMethod);
      let allowsDirectSuper = false;
      if (isConstructor) {
        publicMethod.kind = "constructor";
        if (state.hadConstructor && !this.hasPlugin("typescript")) {
          this.raise(Errors.DuplicateConstructor, {
            at: key
          });
        }
        if (isConstructor && this.hasPlugin("typescript") && member.override) {
          this.raise(Errors.OverrideOnConstructor, {
            at: key
          });
        }
        state.hadConstructor = true;
        allowsDirectSuper = state.hadSuperClass;
      }
      this.pushClassMethod(classBody, publicMethod, false, false, isConstructor, allowsDirectSuper);
    } else if (this.isClassProperty()) {
      if (isPrivate) {
        this.pushClassPrivateProperty(classBody, privateProp);
      } else {
        this.pushClassProperty(classBody, publicProp);
      }
    } else if (isContextual && key.name === "async" && !this.isLineTerminator()) {
      this.resetPreviousNodeTrailingComments(key);
      const isGenerator = this.eat(55);
      if (publicMember.optional) {
        this.unexpected(maybeQuestionTokenStartLoc);
      }
      method.kind = "method";
      const isPrivate = this.match(136);
      this.parseClassElementName(method);
      this.parsePostMemberNameModifiers(publicMember);
      if (isPrivate) {
        this.pushClassPrivateMethod(classBody, privateMethod, isGenerator, true);
      } else {
        if (this.isNonstaticConstructor(publicMethod)) {
          this.raise(Errors.ConstructorIsAsync, {
            at: publicMethod.key
          });
        }
        this.pushClassMethod(classBody, publicMethod, isGenerator, true, false, false);
      }
    } else if (isContextual && (key.name === "get" || key.name === "set") && !(this.match(55) && this.isLineTerminator())) {
      this.resetPreviousNodeTrailingComments(key);
      method.kind = key.name;
      const isPrivate = this.match(136);
      this.parseClassElementName(publicMethod);
      if (isPrivate) {
        this.pushClassPrivateMethod(classBody, privateMethod, false, false);
      } else {
        if (this.isNonstaticConstructor(publicMethod)) {
          this.raise(Errors.ConstructorIsAccessor, {
            at: publicMethod.key
          });
        }
        this.pushClassMethod(classBody, publicMethod, false, false, false, false);
      }
      this.checkGetterSetterParams(publicMethod);
    } else if (isContextual && key.name === "accessor" && !this.isLineTerminator()) {
      this.expectPlugin("decoratorAutoAccessors");
      this.resetPreviousNodeTrailingComments(key);
      const isPrivate = this.match(136);
      this.parseClassElementName(publicProp);
      this.pushClassAccessorProperty(classBody, accessorProp, isPrivate);
    } else if (this.isLineTerminator()) {
      if (isPrivate) {
        this.pushClassPrivateProperty(classBody, privateProp);
      } else {
        this.pushClassProperty(classBody, publicProp);
      }
    } else {
      this.unexpected();
    }
  }
  parseClassElementName(member) {
    const {
      type,
      value
    } = this.state;
    if ((type === 130 || type === 131) && member.static && value === "prototype") {
      this.raise(Errors.StaticPrototype, {
        at: this.state.startLoc
      });
    }
    if (type === 136) {
      if (value === "constructor") {
        this.raise(Errors.ConstructorClassPrivateField, {
          at: this.state.startLoc
        });
      }
      const key = this.parsePrivateName();
      member.key = key;
      return key;
    }
    return this.parsePropertyName(member);
  }
  parseClassStaticBlock(classBody, member) {
    var _member$decorators;
    this.scope.enter(SCOPE_CLASS | SCOPE_STATIC_BLOCK | SCOPE_SUPER);
    const oldLabels = this.state.labels;
    this.state.labels = [];
    this.prodParam.enter(PARAM);
    const body = member.body = [];
    this.parseBlockOrModuleBlockBody(body, undefined, false, 8);
    this.prodParam.exit();
    this.scope.exit();
    this.state.labels = oldLabels;
    classBody.body.push(this.finishNode(member, "StaticBlock"));
    if ((_member$decorators = member.decorators) != null && _member$decorators.length) {
      this.raise(Errors.DecoratorStaticBlock, {
        at: member
      });
    }
  }
  pushClassProperty(classBody, prop) {
    if (!prop.computed && (prop.key.name === "constructor" || prop.key.value === "constructor")) {
      this.raise(Errors.ConstructorClassField, {
        at: prop.key
      });
    }
    classBody.body.push(this.parseClassProperty(prop));
  }
  pushClassPrivateProperty(classBody, prop) {
    const node = this.parseClassPrivateProperty(prop);
    classBody.body.push(node);
    this.classScope.declarePrivateName(this.getPrivateNameSV(node.key), CLASS_ELEMENT_OTHER, node.key.loc.start);
  }
  pushClassAccessorProperty(classBody, prop, isPrivate) {
    if (!isPrivate && !prop.computed) {
      const key = prop.key;
      if (key.name === "constructor" || key.value === "constructor") {
        this.raise(Errors.ConstructorClassField, {
          at: key
        });
      }
    }
    const node = this.parseClassAccessorProperty(prop);
    classBody.body.push(node);
    if (isPrivate) {
      this.classScope.declarePrivateName(this.getPrivateNameSV(node.key), CLASS_ELEMENT_OTHER, node.key.loc.start);
    }
  }
  pushClassMethod(classBody, method, isGenerator, isAsync, isConstructor, allowsDirectSuper) {
    classBody.body.push(this.parseMethod(method, isGenerator, isAsync, isConstructor, allowsDirectSuper, "ClassMethod", true));
  }
  pushClassPrivateMethod(classBody, method, isGenerator, isAsync) {
    const node = this.parseMethod(method, isGenerator, isAsync, false, false, "ClassPrivateMethod", true);
    classBody.body.push(node);
    const kind = node.kind === "get" ? node.static ? CLASS_ELEMENT_STATIC_GETTER : CLASS_ELEMENT_INSTANCE_GETTER : node.kind === "set" ? node.static ? CLASS_ELEMENT_STATIC_SETTER : CLASS_ELEMENT_INSTANCE_SETTER : CLASS_ELEMENT_OTHER;
    this.declareClassPrivateMethodInScope(node, kind);
  }
  declareClassPrivateMethodInScope(node, kind) {
    this.classScope.declarePrivateName(this.getPrivateNameSV(node.key), kind, node.key.loc.start);
  }
  parsePostMemberNameModifiers(methodOrProp) {}
  parseClassPrivateProperty(node) {
    this.parseInitializer(node);
    this.semicolon();
    return this.finishNode(node, "ClassPrivateProperty");
  }
  parseClassProperty(node) {
    this.parseInitializer(node);
    this.semicolon();
    return this.finishNode(node, "ClassProperty");
  }
  parseClassAccessorProperty(node) {
    this.parseInitializer(node);
    this.semicolon();
    return this.finishNode(node, "ClassAccessorProperty");
  }
  parseInitializer(node) {
    this.scope.enter(SCOPE_CLASS | SCOPE_SUPER);
    this.expressionScope.enter(newExpressionScope());
    this.prodParam.enter(PARAM);
    node.value = this.eat(29) ? this.parseMaybeAssignAllowIn() : null;
    this.expressionScope.exit();
    this.prodParam.exit();
    this.scope.exit();
  }
  parseClassId(node, isStatement, optionalId, bindingType = BIND_CLASS) {
    if (tokenIsIdentifier(this.state.type)) {
      node.id = this.parseIdentifier();
      if (isStatement) {
        this.declareNameFromIdentifier(node.id, bindingType);
      }
    } else {
      if (optionalId || !isStatement) {
        node.id = null;
      } else {
        throw this.raise(Errors.MissingClassName, {
          at: this.state.startLoc
        });
      }
    }
  }
  parseClassSuper(node) {
    node.superClass = this.eat(81) ? this.parseExprSubscripts() : null;
  }
  parseExport(node, decorators) {
    const hasDefault = this.maybeParseExportDefaultSpecifier(node);
    const parseAfterDefault = !hasDefault || this.eat(12);
    const hasStar = parseAfterDefault && this.eatExportStar(node);
    const hasNamespace = hasStar && this.maybeParseExportNamespaceSpecifier(node);
    const parseAfterNamespace = parseAfterDefault && (!hasNamespace || this.eat(12));
    const isFromRequired = hasDefault || hasStar;
    if (hasStar && !hasNamespace) {
      if (hasDefault) this.unexpected();
      if (decorators) {
        throw this.raise(Errors.UnsupportedDecoratorExport, {
          at: node
        });
      }
      this.parseExportFrom(node, true);
      return this.finishNode(node, "ExportAllDeclaration");
    }
    const hasSpecifiers = this.maybeParseExportNamedSpecifiers(node);
    if (hasDefault && parseAfterDefault && !hasStar && !hasSpecifiers) {
      this.unexpected(null, 5);
    }
    if (hasNamespace && parseAfterNamespace) {
      this.unexpected(null, 97);
    }
    let hasDeclaration;
    if (isFromRequired || hasSpecifiers) {
      hasDeclaration = false;
      if (decorators) {
        throw this.raise(Errors.UnsupportedDecoratorExport, {
          at: node
        });
      }
      this.parseExportFrom(node, isFromRequired);
    } else {
      hasDeclaration = this.maybeParseExportDeclaration(node);
    }
    if (isFromRequired || hasSpecifiers || hasDeclaration) {
      var _node2$declaration;
      const node2 = node;
      this.checkExport(node2, true, false, !!node2.source);
      if (((_node2$declaration = node2.declaration) == null ? void 0 : _node2$declaration.type) === "ClassDeclaration") {
        this.maybeTakeDecorators(decorators, node2.declaration, node2);
      } else if (decorators) {
        throw this.raise(Errors.UnsupportedDecoratorExport, {
          at: node
        });
      }
      return this.finishNode(node2, "ExportNamedDeclaration");
    }
    if (this.eat(65)) {
      const node2 = node;
      const decl = this.parseExportDefaultExpression();
      node2.declaration = decl;
      if (decl.type === "ClassDeclaration") {
        this.maybeTakeDecorators(decorators, decl, node2);
      } else if (decorators) {
        throw this.raise(Errors.UnsupportedDecoratorExport, {
          at: node
        });
      }
      this.checkExport(node2, true, true);
      return this.finishNode(node2, "ExportDefaultDeclaration");
    }
    this.unexpected(null, 5);
  }
  eatExportStar(node) {
    return this.eat(55);
  }
  maybeParseExportDefaultSpecifier(node) {
    if (this.isExportDefaultSpecifier()) {
      this.expectPlugin("exportDefaultFrom");
      const specifier = this.startNode();
      specifier.exported = this.parseIdentifier(true);
      node.specifiers = [this.finishNode(specifier, "ExportDefaultSpecifier")];
      return true;
    }
    return false;
  }
  maybeParseExportNamespaceSpecifier(node) {
    if (this.isContextual(93)) {
      if (!node.specifiers) node.specifiers = [];
      const specifier = this.startNodeAt(this.state.lastTokStartLoc);
      this.next();
      specifier.exported = this.parseModuleExportName();
      node.specifiers.push(this.finishNode(specifier, "ExportNamespaceSpecifier"));
      return true;
    }
    return false;
  }
  maybeParseExportNamedSpecifiers(node) {
    if (this.match(5)) {
      if (!node.specifiers) node.specifiers = [];
      const isTypeExport = node.exportKind === "type";
      node.specifiers.push(...this.parseExportSpecifiers(isTypeExport));
      node.source = null;
      node.declaration = null;
      if (this.hasPlugin("importAssertions")) {
        node.assertions = [];
      }
      return true;
    }
    return false;
  }
  maybeParseExportDeclaration(node) {
    if (this.shouldParseExportDeclaration()) {
      node.specifiers = [];
      node.source = null;
      if (this.hasPlugin("importAssertions")) {
        node.assertions = [];
      }
      node.declaration = this.parseExportDeclaration(node);
      return true;
    }
    return false;
  }
  isAsyncFunction() {
    if (!this.isContextual(95)) return false;
    const next = this.nextTokenStart();
    return !lineBreak.test(this.input.slice(this.state.pos, next)) && this.isUnparsedContextual(next, "function");
  }
  parseExportDefaultExpression() {
    const expr = this.startNode();
    if (this.match(68)) {
      this.next();
      return this.parseFunction(expr, 1 | 4);
    } else if (this.isAsyncFunction()) {
      this.next();
      this.next();
      return this.parseFunction(expr, 1 | 4 | 8);
    }
    if (this.match(80)) {
      return this.parseClass(expr, true, true);
    }
    if (this.match(26)) {
      if (this.hasPlugin("decorators") && this.getPluginOption("decorators", "decoratorsBeforeExport") === true) {
        this.raise(Errors.DecoratorBeforeExport, {
          at: this.state.startLoc
        });
      }
      return this.parseClass(this.maybeTakeDecorators(this.parseDecorators(false), this.startNode()), true, true);
    }
    if (this.match(75) || this.match(74) || this.isLet()) {
      throw this.raise(Errors.UnsupportedDefaultExport, {
        at: this.state.startLoc
      });
    }
    const res = this.parseMaybeAssignAllowIn();
    this.semicolon();
    return res;
  }
  parseExportDeclaration(node) {
    if (this.match(80)) {
      const node = this.parseClass(this.startNode(), true, false);
      return node;
    }
    return this.parseStatementListItem();
  }
  isExportDefaultSpecifier() {
    const {
      type
    } = this.state;
    if (tokenIsIdentifier(type)) {
      if (type === 95 && !this.state.containsEsc || type === 99) {
        return false;
      }
      if ((type === 128 || type === 127) && !this.state.containsEsc) {
        const {
          type: nextType
        } = this.lookahead();
        if (tokenIsIdentifier(nextType) && nextType !== 97 || nextType === 5) {
          this.expectOnePlugin(["flow", "typescript"]);
          return false;
        }
      }
    } else if (!this.match(65)) {
      return false;
    }
    const next = this.nextTokenStart();
    const hasFrom = this.isUnparsedContextual(next, "from");
    if (this.input.charCodeAt(next) === 44 || tokenIsIdentifier(this.state.type) && hasFrom) {
      return true;
    }
    if (this.match(65) && hasFrom) {
      const nextAfterFrom = this.input.charCodeAt(this.nextTokenStartSince(next + 4));
      return nextAfterFrom === 34 || nextAfterFrom === 39;
    }
    return false;
  }
  parseExportFrom(node, expect) {
    if (this.eatContextual(97)) {
      node.source = this.parseImportSource();
      this.checkExport(node);
      const assertions = this.maybeParseImportAssertions();
      if (assertions) {
        node.assertions = assertions;
        this.checkJSONModuleImport(node);
      }
    } else if (expect) {
      this.unexpected();
    }
    this.semicolon();
  }
  shouldParseExportDeclaration() {
    const {
      type
    } = this.state;
    if (type === 26) {
      this.expectOnePlugin(["decorators", "decorators-legacy"]);
      if (this.hasPlugin("decorators")) {
        if (this.getPluginOption("decorators", "decoratorsBeforeExport") === true) {
          this.raise(Errors.DecoratorBeforeExport, {
            at: this.state.startLoc
          });
        }
        return true;
      }
    }
    return type === 74 || type === 75 || type === 68 || type === 80 || this.isLet() || this.isAsyncFunction();
  }
  checkExport(node, checkNames, isDefault, isFrom) {
    if (checkNames) {
      if (isDefault) {
        this.checkDuplicateExports(node, "default");
        if (this.hasPlugin("exportDefaultFrom")) {
          var _declaration$extra;
          const declaration = node.declaration;
          if (declaration.type === "Identifier" && declaration.name === "from" && declaration.end - declaration.start === 4 && !((_declaration$extra = declaration.extra) != null && _declaration$extra.parenthesized)) {
            this.raise(Errors.ExportDefaultFromAsIdentifier, {
              at: declaration
            });
          }
        }
      } else if (node.specifiers && node.specifiers.length) {
        for (const specifier of node.specifiers) {
          const {
            exported
          } = specifier;
          const exportName = exported.type === "Identifier" ? exported.name : exported.value;
          this.checkDuplicateExports(specifier, exportName);
          if (!isFrom && specifier.local) {
            const {
              local
            } = specifier;
            if (local.type !== "Identifier") {
              this.raise(Errors.ExportBindingIsString, {
                at: specifier,
                localName: local.value,
                exportName
              });
            } else {
              this.checkReservedWord(local.name, local.loc.start, true, false);
              this.scope.checkLocalExport(local);
            }
          }
        }
      } else if (node.declaration) {
        if (node.declaration.type === "FunctionDeclaration" || node.declaration.type === "ClassDeclaration") {
          const id = node.declaration.id;
          if (!id) throw new Error("Assertion failure");
          this.checkDuplicateExports(node, id.name);
        } else if (node.declaration.type === "VariableDeclaration") {
          for (const declaration of node.declaration.declarations) {
            this.checkDeclaration(declaration.id);
          }
        }
      }
    }
  }
  checkDeclaration(node) {
    if (node.type === "Identifier") {
      this.checkDuplicateExports(node, node.name);
    } else if (node.type === "ObjectPattern") {
      for (const prop of node.properties) {
        this.checkDeclaration(prop);
      }
    } else if (node.type === "ArrayPattern") {
      for (const elem of node.elements) {
        if (elem) {
          this.checkDeclaration(elem);
        }
      }
    } else if (node.type === "ObjectProperty") {
      this.checkDeclaration(node.value);
    } else if (node.type === "RestElement") {
      this.checkDeclaration(node.argument);
    } else if (node.type === "AssignmentPattern") {
      this.checkDeclaration(node.left);
    }
  }
  checkDuplicateExports(node, exportName) {
    if (this.exportedIdentifiers.has(exportName)) {
      if (exportName === "default") {
        this.raise(Errors.DuplicateDefaultExport, {
          at: node
        });
      } else {
        this.raise(Errors.DuplicateExport, {
          at: node,
          exportName
        });
      }
    }
    this.exportedIdentifiers.add(exportName);
  }
  parseExportSpecifiers(isInTypeExport) {
    const nodes = [];
    let first = true;
    this.expect(5);
    while (!this.eat(8)) {
      if (first) {
        first = false;
      } else {
        this.expect(12);
        if (this.eat(8)) break;
      }
      const isMaybeTypeOnly = this.isContextual(128);
      const isString = this.match(131);
      const node = this.startNode();
      node.local = this.parseModuleExportName();
      nodes.push(this.parseExportSpecifier(node, isString, isInTypeExport, isMaybeTypeOnly));
    }
    return nodes;
  }
  parseExportSpecifier(node, isString, isInTypeExport, isMaybeTypeOnly) {
    if (this.eatContextual(93)) {
      node.exported = this.parseModuleExportName();
    } else if (isString) {
      node.exported = cloneStringLiteral(node.local);
    } else if (!node.exported) {
      node.exported = cloneIdentifier(node.local);
    }
    return this.finishNode(node, "ExportSpecifier");
  }
  parseModuleExportName() {
    if (this.match(131)) {
      const result = this.parseStringLiteral(this.state.value);
      const surrogate = result.value.match(loneSurrogate);
      if (surrogate) {
        this.raise(Errors.ModuleExportNameHasLoneSurrogate, {
          at: result,
          surrogateCharCode: surrogate[0].charCodeAt(0)
        });
      }
      return result;
    }
    return this.parseIdentifier(true);
  }
  isJSONModuleImport(node) {
    if (node.assertions != null) {
      return node.assertions.some(({
        key,
        value
      }) => {
        return value.value === "json" && (key.type === "Identifier" ? key.name === "type" : key.value === "type");
      });
    }
    return false;
  }
  checkImportReflection(node) {
    if (node.module) {
      var _node$assertions;
      if (node.specifiers.length !== 1 || node.specifiers[0].type !== "ImportDefaultSpecifier") {
        this.raise(Errors.ImportReflectionNotBinding, {
          at: node.specifiers[0].loc.start
        });
      }
      if (((_node$assertions = node.assertions) == null ? void 0 : _node$assertions.length) > 0) {
        this.raise(Errors.ImportReflectionHasAssertion, {
          at: node.specifiers[0].loc.start
        });
      }
    }
  }
  checkJSONModuleImport(node) {
    if (this.isJSONModuleImport(node) && node.type !== "ExportAllDeclaration") {
      const {
        specifiers
      } = node;
      if (specifiers != null) {
        const nonDefaultNamedSpecifier = specifiers.find(specifier => {
          let imported;
          if (specifier.type === "ExportSpecifier") {
            imported = specifier.local;
          } else if (specifier.type === "ImportSpecifier") {
            imported = specifier.imported;
          }
          if (imported !== undefined) {
            return imported.type === "Identifier" ? imported.name !== "default" : imported.value !== "default";
          }
        });
        if (nonDefaultNamedSpecifier !== undefined) {
          this.raise(Errors.ImportJSONBindingNotDefault, {
            at: nonDefaultNamedSpecifier.loc.start
          });
        }
      }
    }
  }
  parseMaybeImportReflection(node) {
    let isImportReflection = false;
    if (this.isContextual(125)) {
      const lookahead = this.lookahead();
      const nextType = lookahead.type;
      if (tokenIsIdentifier(nextType)) {
        if (nextType !== 97) {
          isImportReflection = true;
        } else {
          const nextNextTokenFirstChar = this.input.charCodeAt(this.nextTokenStartSince(lookahead.end));
          if (nextNextTokenFirstChar === 102) {
            isImportReflection = true;
          }
        }
      } else if (nextType !== 12) {
        isImportReflection = true;
      }
    }
    if (isImportReflection) {
      this.expectPlugin("importReflection");
      this.next();
      node.module = true;
    } else if (this.hasPlugin("importReflection")) {
      node.module = false;
    }
  }
  parseImport(node) {
    node.specifiers = [];
    if (!this.match(131)) {
      this.parseMaybeImportReflection(node);
      const hasDefault = this.maybeParseDefaultImportSpecifier(node);
      const parseNext = !hasDefault || this.eat(12);
      const hasStar = parseNext && this.maybeParseStarImportSpecifier(node);
      if (parseNext && !hasStar) this.parseNamedImportSpecifiers(node);
      this.expectContextual(97);
    }
    node.source = this.parseImportSource();
    const assertions = this.maybeParseImportAssertions();
    if (assertions) {
      node.assertions = assertions;
    } else {
      const attributes = this.maybeParseModuleAttributes();
      if (attributes) {
        node.attributes = attributes;
      }
    }
    this.checkImportReflection(node);
    this.checkJSONModuleImport(node);
    this.semicolon();
    return this.finishNode(node, "ImportDeclaration");
  }
  parseImportSource() {
    if (!this.match(131)) this.unexpected();
    return this.parseExprAtom();
  }
  shouldParseDefaultImport(node) {
    return tokenIsIdentifier(this.state.type);
  }
  parseImportSpecifierLocal(node, specifier, type) {
    specifier.local = this.parseIdentifier();
    node.specifiers.push(this.finishImportSpecifier(specifier, type));
  }
  finishImportSpecifier(specifier, type, bindingType = BIND_LEXICAL) {
    this.checkLVal(specifier.local, {
      in: {
        type
      },
      binding: bindingType
    });
    return this.finishNode(specifier, type);
  }
  parseAssertEntries() {
    const attrs = [];
    const attrNames = new Set();
    do {
      if (this.match(8)) {
        break;
      }
      const node = this.startNode();
      const keyName = this.state.value;
      if (attrNames.has(keyName)) {
        this.raise(Errors.ModuleAttributesWithDuplicateKeys, {
          at: this.state.startLoc,
          key: keyName
        });
      }
      attrNames.add(keyName);
      if (this.match(131)) {
        node.key = this.parseStringLiteral(keyName);
      } else {
        node.key = this.parseIdentifier(true);
      }
      this.expect(14);
      if (!this.match(131)) {
        throw this.raise(Errors.ModuleAttributeInvalidValue, {
          at: this.state.startLoc
        });
      }
      node.value = this.parseStringLiteral(this.state.value);
      attrs.push(this.finishNode(node, "ImportAttribute"));
    } while (this.eat(12));
    return attrs;
  }
  maybeParseModuleAttributes() {
    if (this.match(76) && !this.hasPrecedingLineBreak()) {
      this.expectPlugin("moduleAttributes");
      this.next();
    } else {
      if (this.hasPlugin("moduleAttributes")) return [];
      return null;
    }
    const attrs = [];
    const attributes = new Set();
    do {
      const node = this.startNode();
      node.key = this.parseIdentifier(true);
      if (node.key.name !== "type") {
        this.raise(Errors.ModuleAttributeDifferentFromType, {
          at: node.key
        });
      }
      if (attributes.has(node.key.name)) {
        this.raise(Errors.ModuleAttributesWithDuplicateKeys, {
          at: node.key,
          key: node.key.name
        });
      }
      attributes.add(node.key.name);
      this.expect(14);
      if (!this.match(131)) {
        throw this.raise(Errors.ModuleAttributeInvalidValue, {
          at: this.state.startLoc
        });
      }
      node.value = this.parseStringLiteral(this.state.value);
      this.finishNode(node, "ImportAttribute");
      attrs.push(node);
    } while (this.eat(12));
    return attrs;
  }
  maybeParseImportAssertions() {
    if (this.isContextual(94) && !this.hasPrecedingLineBreak()) {
      this.expectPlugin("importAssertions");
      this.next();
    } else {
      if (this.hasPlugin("importAssertions")) return [];
      return null;
    }
    this.eat(5);
    const attrs = this.parseAssertEntries();
    this.eat(8);
    return attrs;
  }
  maybeParseDefaultImportSpecifier(node) {
    if (this.shouldParseDefaultImport(node)) {
      this.parseImportSpecifierLocal(node, this.startNode(), "ImportDefaultSpecifier");
      return true;
    }
    return false;
  }
  maybeParseStarImportSpecifier(node) {
    if (this.match(55)) {
      const specifier = this.startNode();
      this.next();
      this.expectContextual(93);
      this.parseImportSpecifierLocal(node, specifier, "ImportNamespaceSpecifier");
      return true;
    }
    return false;
  }
  parseNamedImportSpecifiers(node) {
    let first = true;
    this.expect(5);
    while (!this.eat(8)) {
      if (first) {
        first = false;
      } else {
        if (this.eat(14)) {
          throw this.raise(Errors.DestructureNamedImport, {
            at: this.state.startLoc
          });
        }
        this.expect(12);
        if (this.eat(8)) break;
      }
      const specifier = this.startNode();
      const importedIsString = this.match(131);
      const isMaybeTypeOnly = this.isContextual(128);
      specifier.imported = this.parseModuleExportName();
      const importSpecifier = this.parseImportSpecifier(specifier, importedIsString, node.importKind === "type" || node.importKind === "typeof", isMaybeTypeOnly, undefined);
      node.specifiers.push(importSpecifier);
    }
  }
  parseImportSpecifier(specifier, importedIsString, isInTypeOnlyImport, isMaybeTypeOnly, bindingType) {
    if (this.eatContextual(93)) {
      specifier.local = this.parseIdentifier();
    } else {
      const {
        imported
      } = specifier;
      if (importedIsString) {
        throw this.raise(Errors.ImportBindingIsString, {
          at: specifier,
          importName: imported.value
        });
      }
      this.checkReservedWord(imported.name, specifier.loc.start, true, true);
      if (!specifier.local) {
        specifier.local = cloneIdentifier(imported);
      }
    }
    return this.finishImportSpecifier(specifier, "ImportSpecifier", bindingType);
  }
  isThisParam(param) {
    return param.type === "Identifier" && param.name === "this";
  }
}
let Parser$2 = class Parser extends StatementParser {
  constructor(options, input) {
    options = getOptions(options);
    super(options, input);
    this.options = options;
    this.initializeScopes();
    this.plugins = pluginsMap(this.options.plugins);
    this.filename = options.sourceFilename;
  }
  getScopeHandler() {
    return ScopeHandler;
  }
  parse() {
    this.enterInitialScopes();
    const file = this.startNode();
    const program = this.startNode();
    this.nextToken();
    file.errors = null;
    this.parseTopLevel(file, program);
    file.errors = this.state.errors;
    return file;
  }
};
function pluginsMap(plugins) {
  const pluginMap = new Map();
  for (const plugin of plugins) {
    const [name, options] = Array.isArray(plugin) ? plugin : [plugin, {}];
    if (!pluginMap.has(name)) pluginMap.set(name, options || {});
  }
  return pluginMap;
}
function parse$9(input, options) {
  var _options;
  if (((_options = options) == null ? void 0 : _options.sourceType) === "unambiguous") {
    options = Object.assign({}, options);
    try {
      options.sourceType = "module";
      const parser = getParser(options, input);
      const ast = parser.parse();
      if (parser.sawUnambiguousESM) {
        return ast;
      }
      if (parser.ambiguousScriptDifferentAst) {
        try {
          options.sourceType = "script";
          return getParser(options, input).parse();
        } catch (_unused) {}
      } else {
        ast.program.sourceType = "script";
      }
      return ast;
    } catch (moduleError) {
      try {
        options.sourceType = "script";
        return getParser(options, input).parse();
      } catch (_unused2) {}
      throw moduleError;
    }
  } else {
    return getParser(options, input).parse();
  }
}
function parseExpression(input, options) {
  const parser = getParser(options, input);
  if (parser.options.strictMode) {
    parser.state.strict = true;
  }
  return parser.getExpression();
}
function generateExportedTokenTypes(internalTokenTypes) {
  const tokenTypes = {};
  for (const typeName of Object.keys(internalTokenTypes)) {
    tokenTypes[typeName] = getExportedToken(internalTokenTypes[typeName]);
  }
  return tokenTypes;
}
const tokTypes = generateExportedTokenTypes(tt);
function getParser(options, input) {
  let cls = Parser$2;
  if (options != null && options.plugins) {
    validatePlugins(options.plugins);
    cls = getParserClass(options.plugins);
  }
  return new cls(options, input);
}
const parserClassCache = {};
function getParserClass(pluginsFromOptions) {
  const pluginList = mixinPluginNames.filter(name => hasPlugin(pluginsFromOptions, name));
  const key = pluginList.join("/");
  let cls = parserClassCache[key];
  if (!cls) {
    cls = Parser$2;
    for (const plugin of pluginList) {
      cls = mixinPlugins[plugin](cls);
    }
    parserClassCache[key] = cls;
  }
  return cls;
}
var parse_1$1 = lib.parse = parse$9;
var parseExpression_1 = lib.parseExpression = parseExpression;
lib.tokTypes = tokTypes;

const isStaticExp = (p) => p.type === 4 && p.isStatic;
const isBuiltInType = (tag, expected) => tag === expected || tag === hyphenate(expected);
function isCoreComponent(tag) {
  if (isBuiltInType(tag, "Teleport")) {
    return TELEPORT;
  } else if (isBuiltInType(tag, "Suspense")) {
    return SUSPENSE;
  } else if (isBuiltInType(tag, "KeepAlive")) {
    return KEEP_ALIVE;
  } else if (isBuiltInType(tag, "BaseTransition")) {
    return BASE_TRANSITION;
  }
}
const nonIdentifierRE = /^\d|[^\$\w]/;
const isSimpleIdentifier = (name) => !nonIdentifierRE.test(name);
const validFirstIdentCharRE = /[A-Za-z_$\xA0-\uFFFF]/;
const validIdentCharRE = /[\.\?\w$\xA0-\uFFFF]/;
const whitespaceRE = /\s+[.[]\s*|\s*[.[]\s+/g;
const isMemberExpressionBrowser = (path) => {
  path = path.trim().replace(whitespaceRE, (s) => s.trim());
  let state = 0 /* inMemberExp */;
  let stateStack = [];
  let currentOpenBracketCount = 0;
  let currentOpenParensCount = 0;
  let currentStringType = null;
  for (let i = 0; i < path.length; i++) {
    const char = path.charAt(i);
    switch (state) {
      case 0 /* inMemberExp */:
        if (char === "[") {
          stateStack.push(state);
          state = 1 /* inBrackets */;
          currentOpenBracketCount++;
        } else if (char === "(") {
          stateStack.push(state);
          state = 2 /* inParens */;
          currentOpenParensCount++;
        } else if (!(i === 0 ? validFirstIdentCharRE : validIdentCharRE).test(char)) {
          return false;
        }
        break;
      case 1 /* inBrackets */:
        if (char === `'` || char === `"` || char === "`") {
          stateStack.push(state);
          state = 3 /* inString */;
          currentStringType = char;
        } else if (char === `[`) {
          currentOpenBracketCount++;
        } else if (char === `]`) {
          if (!--currentOpenBracketCount) {
            state = stateStack.pop();
          }
        }
        break;
      case 2 /* inParens */:
        if (char === `'` || char === `"` || char === "`") {
          stateStack.push(state);
          state = 3 /* inString */;
          currentStringType = char;
        } else if (char === `(`) {
          currentOpenParensCount++;
        } else if (char === `)`) {
          if (i === path.length - 1) {
            return false;
          }
          if (!--currentOpenParensCount) {
            state = stateStack.pop();
          }
        }
        break;
      case 3 /* inString */:
        if (char === currentStringType) {
          state = stateStack.pop();
          currentStringType = null;
        }
        break;
    }
  }
  return !currentOpenBracketCount && !currentOpenParensCount;
};
const isMemberExpressionNode = (path, context) => {
  try {
    let ret = parseExpression_1(path, {
      plugins: context.expressionPlugins
    });
    if (ret.type === "TSAsExpression" || ret.type === "TSTypeAssertion") {
      ret = ret.expression;
    }
    return ret.type === "MemberExpression" || ret.type === "OptionalMemberExpression" || ret.type === "Identifier";
  } catch (e) {
    return false;
  }
};
const isMemberExpression = isMemberExpressionNode;
function getInnerRange(loc, offset, length) {
  const source = loc.source.slice(offset, offset + length);
  const newLoc = {
    source,
    start: advancePositionWithClone(loc.start, loc.source, offset),
    end: loc.end
  };
  if (length != null) {
    newLoc.end = advancePositionWithClone(
      loc.start,
      loc.source,
      offset + length
    );
  }
  return newLoc;
}
function advancePositionWithClone(pos, source, numberOfCharacters = source.length) {
  return advancePositionWithMutation(
    extend({}, pos),
    source,
    numberOfCharacters
  );
}
function advancePositionWithMutation(pos, source, numberOfCharacters = source.length) {
  let linesCount = 0;
  let lastNewLinePos = -1;
  for (let i = 0; i < numberOfCharacters; i++) {
    if (source.charCodeAt(i) === 10) {
      linesCount++;
      lastNewLinePos = i;
    }
  }
  pos.offset += numberOfCharacters;
  pos.line += linesCount;
  pos.column = lastNewLinePos === -1 ? pos.column + numberOfCharacters : numberOfCharacters - lastNewLinePos;
  return pos;
}
function assert(condition, msg) {
  if (!condition) {
    throw new Error(msg || `unexpected compiler condition`);
  }
}
function findDir(node, name, allowEmpty = false) {
  for (let i = 0; i < node.props.length; i++) {
    const p = node.props[i];
    if (p.type === 7 && (allowEmpty || p.exp) && (isString$2(name) ? p.name === name : name.test(p.name))) {
      return p;
    }
  }
}
function findProp(node, name, dynamicOnly = false, allowEmpty = false) {
  for (let i = 0; i < node.props.length; i++) {
    const p = node.props[i];
    if (p.type === 6) {
      if (dynamicOnly)
        continue;
      if (p.name === name && (p.value || allowEmpty)) {
        return p;
      }
    } else if (p.name === "bind" && (p.exp || allowEmpty) && isStaticArgOf(p.arg, name)) {
      return p;
    }
  }
}
function isStaticArgOf(arg, name) {
  return !!(arg && isStaticExp(arg) && arg.content === name);
}
function hasDynamicKeyVBind(node) {
  return node.props.some(
    (p) => p.type === 7 && p.name === "bind" && (!p.arg || // v-bind="obj"
    p.arg.type !== 4 || // v-bind:[_ctx.foo]
    !p.arg.isStatic)
    // v-bind:[foo]
  );
}
function isText$1(node) {
  return node.type === 5 || node.type === 2;
}
function isVSlot(p) {
  return p.type === 7 && p.name === "slot";
}
function isTemplateNode(node) {
  return node.type === 1 && node.tagType === 3;
}
function isSlotOutlet(node) {
  return node.type === 1 && node.tagType === 2;
}
const propsHelperSet = /* @__PURE__ */ new Set([NORMALIZE_PROPS, GUARD_REACTIVE_PROPS]);
function getUnnormalizedProps(props, callPath = []) {
  if (props && !isString$2(props) && props.type === 14) {
    const callee = props.callee;
    if (!isString$2(callee) && propsHelperSet.has(callee)) {
      return getUnnormalizedProps(
        props.arguments[0],
        callPath.concat(props)
      );
    }
  }
  return [props, callPath];
}
function injectProp(node, prop, context) {
  let propsWithInjection;
  let props = node.type === 13 ? node.props : node.arguments[2];
  let callPath = [];
  let parentCall;
  if (props && !isString$2(props) && props.type === 14) {
    const ret = getUnnormalizedProps(props);
    props = ret[0];
    callPath = ret[1];
    parentCall = callPath[callPath.length - 1];
  }
  if (props == null || isString$2(props)) {
    propsWithInjection = createObjectExpression([prop]);
  } else if (props.type === 14) {
    const first = props.arguments[0];
    if (!isString$2(first) && first.type === 15) {
      if (!hasProp(prop, first)) {
        first.properties.unshift(prop);
      }
    } else {
      if (props.callee === TO_HANDLERS) {
        propsWithInjection = createCallExpression(context.helper(MERGE_PROPS), [
          createObjectExpression([prop]),
          props
        ]);
      } else {
        props.arguments.unshift(createObjectExpression([prop]));
      }
    }
    !propsWithInjection && (propsWithInjection = props);
  } else if (props.type === 15) {
    if (!hasProp(prop, props)) {
      props.properties.unshift(prop);
    }
    propsWithInjection = props;
  } else {
    propsWithInjection = createCallExpression(context.helper(MERGE_PROPS), [
      createObjectExpression([prop]),
      props
    ]);
    if (parentCall && parentCall.callee === GUARD_REACTIVE_PROPS) {
      parentCall = callPath[callPath.length - 2];
    }
  }
  if (node.type === 13) {
    if (parentCall) {
      parentCall.arguments[0] = propsWithInjection;
    } else {
      node.props = propsWithInjection;
    }
  } else {
    if (parentCall) {
      parentCall.arguments[0] = propsWithInjection;
    } else {
      node.arguments[2] = propsWithInjection;
    }
  }
}
function hasProp(prop, props) {
  let result = false;
  if (prop.key.type === 4) {
    const propKeyName = prop.key.content;
    result = props.properties.some(
      (p) => p.key.type === 4 && p.key.content === propKeyName
    );
  }
  return result;
}
function toValidAssetId(name, type) {
  return `_${type}_${name.replace(/[^\w]/g, (searchValue, replaceValue) => {
    return searchValue === "-" ? "_" : name.charCodeAt(replaceValue).toString();
  })}`;
}
function hasScopeRef(node, ids) {
  if (!node || Object.keys(ids).length === 0) {
    return false;
  }
  switch (node.type) {
    case 1:
      for (let i = 0; i < node.props.length; i++) {
        const p = node.props[i];
        if (p.type === 7 && (hasScopeRef(p.arg, ids) || hasScopeRef(p.exp, ids))) {
          return true;
        }
      }
      return node.children.some((c) => hasScopeRef(c, ids));
    case 11:
      if (hasScopeRef(node.source, ids)) {
        return true;
      }
      return node.children.some((c) => hasScopeRef(c, ids));
    case 9:
      return node.branches.some((b) => hasScopeRef(b, ids));
    case 10:
      if (hasScopeRef(node.condition, ids)) {
        return true;
      }
      return node.children.some((c) => hasScopeRef(c, ids));
    case 4:
      return !node.isStatic && isSimpleIdentifier(node.content) && !!ids[node.content];
    case 8:
      return node.children.some((c) => isObject$2(c) && hasScopeRef(c, ids));
    case 5:
    case 12:
      return hasScopeRef(node.content, ids);
    case 2:
    case 3:
      return false;
    default:
      return false;
  }
}
function getMemoedVNodeCall(node) {
  if (node.type === 14 && node.callee === WITH_MEMO) {
    return node.arguments[1].returns;
  } else {
    return node;
  }
}

const deprecationData = {
  ["COMPILER_IS_ON_ELEMENT"]: {
    message: `Platform-native elements with "is" prop will no longer be treated as components in Vue 3 unless the "is" value is explicitly prefixed with "vue:".`,
    link: `https://v3-migration.vuejs.org/breaking-changes/custom-elements-interop.html`
  },
  ["COMPILER_V_BIND_SYNC"]: {
    message: (key) => `.sync modifier for v-bind has been removed. Use v-model with argument instead. \`v-bind:${key}.sync\` should be changed to \`v-model:${key}\`.`,
    link: `https://v3-migration.vuejs.org/breaking-changes/v-model.html`
  },
  ["COMPILER_V_BIND_PROP"]: {
    message: `.prop modifier for v-bind has been removed and no longer necessary. Vue 3 will automatically set a binding as DOM property when appropriate.`
  },
  ["COMPILER_V_BIND_OBJECT_ORDER"]: {
    message: `v-bind="obj" usage is now order sensitive and behaves like JavaScript object spread: it will now overwrite an existing non-mergeable attribute that appears before v-bind in the case of conflict. To retain 2.x behavior, move v-bind to make it the first attribute. You can also suppress this warning if the usage is intended.`,
    link: `https://v3-migration.vuejs.org/breaking-changes/v-bind.html`
  },
  ["COMPILER_V_ON_NATIVE"]: {
    message: `.native modifier for v-on has been removed as is no longer necessary.`,
    link: `https://v3-migration.vuejs.org/breaking-changes/v-on-native-modifier-removed.html`
  },
  ["COMPILER_V_IF_V_FOR_PRECEDENCE"]: {
    message: `v-if / v-for precedence when used on the same element has changed in Vue 3: v-if now takes higher precedence and will no longer have access to v-for scope variables. It is best to avoid the ambiguity with <template> tags or use a computed property that filters v-for data source.`,
    link: `https://v3-migration.vuejs.org/breaking-changes/v-if-v-for.html`
  },
  ["COMPILER_NATIVE_TEMPLATE"]: {
    message: `<template> with no special directives will render as a native template element instead of its inner content in Vue 3.`
  },
  ["COMPILER_INLINE_TEMPLATE"]: {
    message: `"inline-template" has been removed in Vue 3.`,
    link: `https://v3-migration.vuejs.org/breaking-changes/inline-template-attribute.html`
  },
  ["COMPILER_FILTER"]: {
    message: `filters have been removed in Vue 3. The "|" symbol will be treated as native JavaScript bitwise OR operator. Use method calls or computed properties instead.`,
    link: `https://v3-migration.vuejs.org/breaking-changes/filters.html`
  }
};
function getCompatValue(key, context) {
  const config = context.options ? context.options.compatConfig : context.compatConfig;
  const value = config && config[key];
  if (key === "MODE") {
    return value || 3;
  } else {
    return value;
  }
}
function isCompatEnabled(key, context) {
  const mode = getCompatValue("MODE", context);
  const value = getCompatValue(key, context);
  return mode === 3 ? value === true : value !== false;
}
function checkCompatEnabled(key, context, loc, ...args) {
  const enabled = isCompatEnabled(key, context);
  if (enabled) {
    warnDeprecation(key, context, loc, ...args);
  }
  return enabled;
}
function warnDeprecation(key, context, loc, ...args) {
  const val = getCompatValue(key, context);
  if (val === "suppress-warning") {
    return;
  }
  const { message, link } = deprecationData[key];
  const msg = `(deprecation ${key}) ${typeof message === "function" ? message(...args) : message}${link ? `
  Details: ${link}` : ``}`;
  const err = new SyntaxError(msg);
  err.code = key;
  if (loc)
    err.loc = loc;
  context.onWarn(err);
}

const decodeRE = /&(gt|lt|amp|apos|quot);/g;
const decodeMap = {
  gt: ">",
  lt: "<",
  amp: "&",
  apos: "'",
  quot: '"'
};
const defaultParserOptions = {
  delimiters: [`{{`, `}}`],
  getNamespace: () => 0,
  getTextMode: () => 0,
  isVoidTag: NO,
  isPreTag: NO,
  isCustomElement: NO,
  decodeEntities: (rawText) => rawText.replace(decodeRE, (_, p1) => decodeMap[p1]),
  onError: defaultOnError,
  onWarn: defaultOnWarn,
  comments: true
};
function baseParse(content, options = {}) {
  const context = createParserContext(content, options);
  const start = getCursor(context);
  return createRoot(
    parseChildren(context, 0, []),
    getSelection(context, start)
  );
}
function createParserContext(content, rawOptions) {
  const options = extend({}, defaultParserOptions);
  let key;
  for (key in rawOptions) {
    options[key] = rawOptions[key] === void 0 ? defaultParserOptions[key] : rawOptions[key];
  }
  return {
    options,
    column: 1,
    line: 1,
    offset: 0,
    originalSource: content,
    source: content,
    inPre: false,
    inVPre: false,
    onWarn: options.onWarn
  };
}
function parseChildren(context, mode, ancestors) {
  const parent = last(ancestors);
  const ns = parent ? parent.ns : 0;
  const nodes = [];
  while (!isEnd(context, mode, ancestors)) {
    const s = context.source;
    let node = void 0;
    if (mode === 0 || mode === 1) {
      if (!context.inVPre && startsWith(s, context.options.delimiters[0])) {
        node = parseInterpolation(context, mode);
      } else if (mode === 0 && s[0] === "<") {
        if (s.length === 1) {
          emitError(context, 5, 1);
        } else if (s[1] === "!") {
          if (startsWith(s, "<!--")) {
            node = parseComment(context);
          } else if (startsWith(s, "<!DOCTYPE")) {
            node = parseBogusComment(context);
          } else if (startsWith(s, "<![CDATA[")) {
            if (ns !== 0) {
              node = parseCDATA(context, ancestors);
            } else {
              emitError(context, 1);
              node = parseBogusComment(context);
            }
          } else {
            emitError(context, 11);
            node = parseBogusComment(context);
          }
        } else if (s[1] === "/") {
          if (s.length === 2) {
            emitError(context, 5, 2);
          } else if (s[2] === ">") {
            emitError(context, 14, 2);
            advanceBy(context, 3);
            continue;
          } else if (/[a-z]/i.test(s[2])) {
            emitError(context, 23);
            parseTag(context, TagType.End, parent);
            continue;
          } else {
            emitError(
              context,
              12,
              2
            );
            node = parseBogusComment(context);
          }
        } else if (/[a-z]/i.test(s[1])) {
          node = parseElement(context, ancestors);
        } else if (s[1] === "?") {
          emitError(
            context,
            21,
            1
          );
          node = parseBogusComment(context);
        } else {
          emitError(context, 12, 1);
        }
      }
    }
    if (!node) {
      node = parseText(context, mode);
    }
    if (isArray$3(node)) {
      for (let i = 0; i < node.length; i++) {
        pushNode(nodes, node[i]);
      }
    } else {
      pushNode(nodes, node);
    }
  }
  let removedWhitespace = false;
  if (mode !== 2 && mode !== 1) {
    const shouldCondense = context.options.whitespace !== "preserve";
    for (let i = 0; i < nodes.length; i++) {
      const node = nodes[i];
      if (node.type === 2) {
        if (!context.inPre) {
          if (!/[^\t\r\n\f ]/.test(node.content)) {
            const prev = nodes[i - 1];
            const next = nodes[i + 1];
            if (!prev || !next || shouldCondense && (prev.type === 3 && next.type === 3 || prev.type === 3 && next.type === 1 || prev.type === 1 && next.type === 3 || prev.type === 1 && next.type === 1 && /[\r\n]/.test(node.content))) {
              removedWhitespace = true;
              nodes[i] = null;
            } else {
              node.content = " ";
            }
          } else if (shouldCondense) {
            node.content = node.content.replace(/[\t\r\n\f ]+/g, " ");
          }
        } else {
          node.content = node.content.replace(/\r\n/g, "\n");
        }
      } else if (node.type === 3 && !context.options.comments) {
        removedWhitespace = true;
        nodes[i] = null;
      }
    }
    if (context.inPre && parent && context.options.isPreTag(parent.tag)) {
      const first = nodes[0];
      if (first && first.type === 2) {
        first.content = first.content.replace(/^\r?\n/, "");
      }
    }
  }
  return removedWhitespace ? nodes.filter(Boolean) : nodes;
}
function pushNode(nodes, node) {
  if (node.type === 2) {
    const prev = last(nodes);
    if (prev && prev.type === 2 && prev.loc.end.offset === node.loc.start.offset) {
      prev.content += node.content;
      prev.loc.end = node.loc.end;
      prev.loc.source += node.loc.source;
      return;
    }
  }
  nodes.push(node);
}
function parseCDATA(context, ancestors) {
  advanceBy(context, 9);
  const nodes = parseChildren(context, 3, ancestors);
  if (context.source.length === 0) {
    emitError(context, 6);
  } else {
    advanceBy(context, 3);
  }
  return nodes;
}
function parseComment(context) {
  const start = getCursor(context);
  let content;
  const match = /--(\!)?>/.exec(context.source);
  if (!match) {
    content = context.source.slice(4);
    advanceBy(context, context.source.length);
    emitError(context, 7);
  } else {
    if (match.index <= 3) {
      emitError(context, 0);
    }
    if (match[1]) {
      emitError(context, 10);
    }
    content = context.source.slice(4, match.index);
    const s = context.source.slice(0, match.index);
    let prevIndex = 1, nestedIndex = 0;
    while ((nestedIndex = s.indexOf("<!--", prevIndex)) !== -1) {
      advanceBy(context, nestedIndex - prevIndex + 1);
      if (nestedIndex + 4 < s.length) {
        emitError(context, 16);
      }
      prevIndex = nestedIndex + 1;
    }
    advanceBy(context, match.index + match[0].length - prevIndex + 1);
  }
  return {
    type: 3,
    content,
    loc: getSelection(context, start)
  };
}
function parseBogusComment(context) {
  const start = getCursor(context);
  const contentStart = context.source[1] === "?" ? 1 : 2;
  let content;
  const closeIndex = context.source.indexOf(">");
  if (closeIndex === -1) {
    content = context.source.slice(contentStart);
    advanceBy(context, context.source.length);
  } else {
    content = context.source.slice(contentStart, closeIndex);
    advanceBy(context, closeIndex + 1);
  }
  return {
    type: 3,
    content,
    loc: getSelection(context, start)
  };
}
function parseElement(context, ancestors) {
  const wasInPre = context.inPre;
  const wasInVPre = context.inVPre;
  const parent = last(ancestors);
  const element = parseTag(context, TagType.Start, parent);
  const isPreBoundary = context.inPre && !wasInPre;
  const isVPreBoundary = context.inVPre && !wasInVPre;
  if (element.isSelfClosing || context.options.isVoidTag(element.tag)) {
    if (isPreBoundary) {
      context.inPre = false;
    }
    if (isVPreBoundary) {
      context.inVPre = false;
    }
    return element;
  }
  ancestors.push(element);
  const mode = context.options.getTextMode(element, parent);
  const children = parseChildren(context, mode, ancestors);
  ancestors.pop();
  element.children = children;
  if (startsWithEndTagOpen(context.source, element.tag)) {
    parseTag(context, TagType.End, parent);
  } else {
    emitError(context, 24, 0, element.loc.start);
    if (context.source.length === 0 && element.tag.toLowerCase() === "script") {
      const first = children[0];
      if (first && startsWith(first.loc.source, "<!--")) {
        emitError(context, 8);
      }
    }
  }
  element.loc = getSelection(context, element.loc.start);
  if (isPreBoundary) {
    context.inPre = false;
  }
  if (isVPreBoundary) {
    context.inVPre = false;
  }
  return element;
}
var TagType = /* @__PURE__ */ ((TagType2) => {
  TagType2[TagType2["Start"] = 0] = "Start";
  TagType2[TagType2["End"] = 1] = "End";
  return TagType2;
})(TagType || {});
const isSpecialTemplateDirective = /* @__PURE__ */ makeMap(
  `if,else,else-if,for,slot`
);
function parseTag(context, type, parent) {
  const start = getCursor(context);
  const match = /^<\/?([a-z][^\t\r\n\f />]*)/i.exec(context.source);
  const tag = match[1];
  const ns = context.options.getNamespace(tag, parent);
  advanceBy(context, match[0].length);
  advanceSpaces(context);
  const cursor = getCursor(context);
  const currentSource = context.source;
  if (context.options.isPreTag(tag)) {
    context.inPre = true;
  }
  let props = parseAttributes(context, type);
  if (type === 0 /* Start */ && !context.inVPre && props.some((p) => p.type === 7 && p.name === "pre")) {
    context.inVPre = true;
    extend(context, cursor);
    context.source = currentSource;
    props = parseAttributes(context, type).filter((p) => p.name !== "v-pre");
  }
  let isSelfClosing = false;
  if (context.source.length === 0) {
    emitError(context, 9);
  } else {
    isSelfClosing = startsWith(context.source, "/>");
    if (type === 1 /* End */ && isSelfClosing) {
      emitError(context, 4);
    }
    advanceBy(context, isSelfClosing ? 2 : 1);
  }
  if (type === 1 /* End */) {
    return;
  }
  let tagType = 0;
  if (!context.inVPre) {
    if (tag === "slot") {
      tagType = 2;
    } else if (tag === "template") {
      if (props.some(
        (p) => p.type === 7 && isSpecialTemplateDirective(p.name)
      )) {
        tagType = 3;
      }
    } else if (isComponent(tag, props, context)) {
      tagType = 1;
    }
  }
  return {
    type: 1,
    ns,
    tag,
    tagType,
    props,
    isSelfClosing,
    children: [],
    loc: getSelection(context, start),
    codegenNode: void 0
    // to be created during transform phase
  };
}
function isComponent(tag, props, context) {
  const options = context.options;
  if (options.isCustomElement(tag)) {
    return false;
  }
  if (tag === "component" || /^[A-Z]/.test(tag) || isCoreComponent(tag) || options.isBuiltInComponent && options.isBuiltInComponent(tag) || options.isNativeTag && !options.isNativeTag(tag)) {
    return true;
  }
  for (let i = 0; i < props.length; i++) {
    const p = props[i];
    if (p.type === 6) {
      if (p.name === "is" && p.value) {
        if (p.value.content.startsWith("vue:")) {
          return true;
        }
      }
    } else {
      if (p.name === "is") {
        return true;
      } else if (
        // :is on plain element - only treat as component in compat mode
        p.name === "bind" && isStaticArgOf(p.arg, "is") && false
      ) {
        return true;
      }
    }
  }
}
function parseAttributes(context, type) {
  const props = [];
  const attributeNames = /* @__PURE__ */ new Set();
  while (context.source.length > 0 && !startsWith(context.source, ">") && !startsWith(context.source, "/>")) {
    if (startsWith(context.source, "/")) {
      emitError(context, 22);
      advanceBy(context, 1);
      advanceSpaces(context);
      continue;
    }
    if (type === 1 /* End */) {
      emitError(context, 3);
    }
    const attr = parseAttribute(context, attributeNames);
    if (attr.type === 6 && attr.value && attr.name === "class") {
      attr.value.content = attr.value.content.replace(/\s+/g, " ").trim();
    }
    if (type === 0 /* Start */) {
      props.push(attr);
    }
    if (/^[^\t\r\n\f />]/.test(context.source)) {
      emitError(context, 15);
    }
    advanceSpaces(context);
  }
  return props;
}
function parseAttribute(context, nameSet) {
  var _a;
  const start = getCursor(context);
  const match = /^[^\t\r\n\f />][^\t\r\n\f />=]*/.exec(context.source);
  const name = match[0];
  if (nameSet.has(name)) {
    emitError(context, 2);
  }
  nameSet.add(name);
  if (name[0] === "=") {
    emitError(context, 19);
  }
  {
    const pattern = /["'<]/g;
    let m;
    while (m = pattern.exec(name)) {
      emitError(
        context,
        17,
        m.index
      );
    }
  }
  advanceBy(context, name.length);
  let value = void 0;
  if (/^[\t\r\n\f ]*=/.test(context.source)) {
    advanceSpaces(context);
    advanceBy(context, 1);
    advanceSpaces(context);
    value = parseAttributeValue(context);
    if (!value) {
      emitError(context, 13);
    }
  }
  const loc = getSelection(context, start);
  if (!context.inVPre && /^(v-[A-Za-z0-9-]|:|\.|@|#)/.test(name)) {
    const match2 = /(?:^v-([a-z0-9-]+))?(?:(?::|^\.|^@|^#)(\[[^\]]+\]|[^\.]+))?(.+)?$/i.exec(
      name
    );
    let isPropShorthand = startsWith(name, ".");
    let dirName = match2[1] || (isPropShorthand || startsWith(name, ":") ? "bind" : startsWith(name, "@") ? "on" : "slot");
    let arg;
    if (match2[2]) {
      const isSlot = dirName === "slot";
      const startOffset = name.lastIndexOf(
        match2[2],
        name.length - (((_a = match2[3]) == null ? void 0 : _a.length) || 0)
      );
      const loc2 = getSelection(
        context,
        getNewPosition(context, start, startOffset),
        getNewPosition(
          context,
          start,
          startOffset + match2[2].length + (isSlot && match2[3] || "").length
        )
      );
      let content = match2[2];
      let isStatic = true;
      if (content.startsWith("[")) {
        isStatic = false;
        if (!content.endsWith("]")) {
          emitError(
            context,
            27
          );
          content = content.slice(1);
        } else {
          content = content.slice(1, content.length - 1);
        }
      } else if (isSlot) {
        content += match2[3] || "";
      }
      arg = {
        type: 4,
        content,
        isStatic,
        constType: isStatic ? 3 : 0,
        loc: loc2
      };
    }
    if (value && value.isQuoted) {
      const valueLoc = value.loc;
      valueLoc.start.offset++;
      valueLoc.start.column++;
      valueLoc.end = advancePositionWithClone(valueLoc.start, value.content);
      valueLoc.source = valueLoc.source.slice(1, -1);
    }
    const modifiers = match2[3] ? match2[3].slice(1).split(".") : [];
    if (isPropShorthand)
      modifiers.push("prop");
    return {
      type: 7,
      name: dirName,
      exp: value && {
        type: 4,
        content: value.content,
        isStatic: false,
        // Treat as non-constant by default. This can be potentially set to
        // other values by `transformExpression` to make it eligible for hoisting.
        constType: 0,
        loc: value.loc
      },
      arg,
      modifiers,
      loc
    };
  }
  if (!context.inVPre && startsWith(name, "v-")) {
    emitError(context, 26);
  }
  return {
    type: 6,
    name,
    value: value && {
      type: 2,
      content: value.content,
      loc: value.loc
    },
    loc
  };
}
function parseAttributeValue(context) {
  const start = getCursor(context);
  let content;
  const quote = context.source[0];
  const isQuoted = quote === `"` || quote === `'`;
  if (isQuoted) {
    advanceBy(context, 1);
    const endIndex = context.source.indexOf(quote);
    if (endIndex === -1) {
      content = parseTextData(
        context,
        context.source.length,
        4
      );
    } else {
      content = parseTextData(context, endIndex, 4);
      advanceBy(context, 1);
    }
  } else {
    const match = /^[^\t\r\n\f >]+/.exec(context.source);
    if (!match) {
      return void 0;
    }
    const unexpectedChars = /["'<=`]/g;
    let m;
    while (m = unexpectedChars.exec(match[0])) {
      emitError(
        context,
        18,
        m.index
      );
    }
    content = parseTextData(context, match[0].length, 4);
  }
  return { content, isQuoted, loc: getSelection(context, start) };
}
function parseInterpolation(context, mode) {
  const [open, close] = context.options.delimiters;
  const closeIndex = context.source.indexOf(close, open.length);
  if (closeIndex === -1) {
    emitError(context, 25);
    return void 0;
  }
  const start = getCursor(context);
  advanceBy(context, open.length);
  const innerStart = getCursor(context);
  const innerEnd = getCursor(context);
  const rawContentLength = closeIndex - open.length;
  const rawContent = context.source.slice(0, rawContentLength);
  const preTrimContent = parseTextData(context, rawContentLength, mode);
  const content = preTrimContent.trim();
  const startOffset = preTrimContent.indexOf(content);
  if (startOffset > 0) {
    advancePositionWithMutation(innerStart, rawContent, startOffset);
  }
  const endOffset = rawContentLength - (preTrimContent.length - content.length - startOffset);
  advancePositionWithMutation(innerEnd, rawContent, endOffset);
  advanceBy(context, close.length);
  return {
    type: 5,
    content: {
      type: 4,
      isStatic: false,
      // Set `isConstant` to false by default and will decide in transformExpression
      constType: 0,
      content,
      loc: getSelection(context, innerStart, innerEnd)
    },
    loc: getSelection(context, start)
  };
}
function parseText(context, mode) {
  const endTokens = mode === 3 ? ["]]>"] : ["<", context.options.delimiters[0]];
  let endIndex = context.source.length;
  for (let i = 0; i < endTokens.length; i++) {
    const index = context.source.indexOf(endTokens[i], 1);
    if (index !== -1 && endIndex > index) {
      endIndex = index;
    }
  }
  const start = getCursor(context);
  const content = parseTextData(context, endIndex, mode);
  return {
    type: 2,
    content,
    loc: getSelection(context, start)
  };
}
function parseTextData(context, length, mode) {
  const rawText = context.source.slice(0, length);
  advanceBy(context, length);
  if (mode === 2 || mode === 3 || !rawText.includes("&")) {
    return rawText;
  } else {
    return context.options.decodeEntities(
      rawText,
      mode === 4
    );
  }
}
function getCursor(context) {
  const { column, line, offset } = context;
  return { column, line, offset };
}
function getSelection(context, start, end) {
  end = end || getCursor(context);
  return {
    start,
    end,
    source: context.originalSource.slice(start.offset, end.offset)
  };
}
function last(xs) {
  return xs[xs.length - 1];
}
function startsWith(source, searchString) {
  return source.startsWith(searchString);
}
function advanceBy(context, numberOfCharacters) {
  const { source } = context;
  advancePositionWithMutation(context, source, numberOfCharacters);
  context.source = source.slice(numberOfCharacters);
}
function advanceSpaces(context) {
  const match = /^[\t\r\n\f ]+/.exec(context.source);
  if (match) {
    advanceBy(context, match[0].length);
  }
}
function getNewPosition(context, start, numberOfCharacters) {
  return advancePositionWithClone(
    start,
    context.originalSource.slice(start.offset, numberOfCharacters),
    numberOfCharacters
  );
}
function emitError(context, code, offset, loc = getCursor(context)) {
  if (offset) {
    loc.offset += offset;
    loc.column += offset;
  }
  context.options.onError(
    createCompilerError(code, {
      start: loc,
      end: loc,
      source: ""
    })
  );
}
function isEnd(context, mode, ancestors) {
  const s = context.source;
  switch (mode) {
    case 0:
      if (startsWith(s, "</")) {
        for (let i = ancestors.length - 1; i >= 0; --i) {
          if (startsWithEndTagOpen(s, ancestors[i].tag)) {
            return true;
          }
        }
      }
      break;
    case 1:
    case 2: {
      const parent = last(ancestors);
      if (parent && startsWithEndTagOpen(s, parent.tag)) {
        return true;
      }
      break;
    }
    case 3:
      if (startsWith(s, "]]>")) {
        return true;
      }
      break;
  }
  return !s;
}
function startsWithEndTagOpen(source, tag) {
  return startsWith(source, "</") && source.slice(2, 2 + tag.length).toLowerCase() === tag.toLowerCase() && /[\t\r\n\f />]/.test(source[2 + tag.length] || ">");
}

function hoistStatic(root, context) {
  walk$2(
    root,
    context,
    // Root node is unfortunately non-hoistable due to potential parent
    // fallthrough attributes.
    isSingleElementRoot(root, root.children[0])
  );
}
function isSingleElementRoot(root, child) {
  const { children } = root;
  return children.length === 1 && child.type === 1 && !isSlotOutlet(child);
}
function walk$2(node, context, doNotHoistNode = false) {
  const { children } = node;
  const originalCount = children.length;
  let hoistedCount = 0;
  for (let i = 0; i < children.length; i++) {
    const child = children[i];
    if (child.type === 1 && child.tagType === 0) {
      const constantType = doNotHoistNode ? 0 : getConstantType(child, context);
      if (constantType > 0) {
        if (constantType >= 2) {
          child.codegenNode.patchFlag = -1 + (` /* HOISTED */` );
          child.codegenNode = context.hoist(child.codegenNode);
          hoistedCount++;
          continue;
        }
      } else {
        const codegenNode = child.codegenNode;
        if (codegenNode.type === 13) {
          const flag = getPatchFlag(codegenNode);
          if ((!flag || flag === 512 || flag === 1) && getGeneratedPropsConstantType(child, context) >= 2) {
            const props = getNodeProps(child);
            if (props) {
              codegenNode.props = context.hoist(props);
            }
          }
          if (codegenNode.dynamicProps) {
            codegenNode.dynamicProps = context.hoist(codegenNode.dynamicProps);
          }
        }
      }
    }
    if (child.type === 1) {
      const isComponent = child.tagType === 1;
      if (isComponent) {
        context.scopes.vSlot++;
      }
      walk$2(child, context);
      if (isComponent) {
        context.scopes.vSlot--;
      }
    } else if (child.type === 11) {
      walk$2(child, context, child.children.length === 1);
    } else if (child.type === 9) {
      for (let i2 = 0; i2 < child.branches.length; i2++) {
        walk$2(
          child.branches[i2],
          context,
          child.branches[i2].children.length === 1
        );
      }
    }
  }
  if (hoistedCount && context.transformHoist) {
    context.transformHoist(children, context, node);
  }
  if (hoistedCount && hoistedCount === originalCount && node.type === 1 && node.tagType === 0 && node.codegenNode && node.codegenNode.type === 13 && isArray$3(node.codegenNode.children)) {
    node.codegenNode.children = context.hoist(
      createArrayExpression(node.codegenNode.children)
    );
  }
}
function getConstantType(node, context) {
  const { constantCache } = context;
  switch (node.type) {
    case 1:
      if (node.tagType !== 0) {
        return 0;
      }
      const cached = constantCache.get(node);
      if (cached !== void 0) {
        return cached;
      }
      const codegenNode = node.codegenNode;
      if (codegenNode.type !== 13) {
        return 0;
      }
      if (codegenNode.isBlock && node.tag !== "svg" && node.tag !== "foreignObject") {
        return 0;
      }
      const flag = getPatchFlag(codegenNode);
      if (!flag) {
        let returnType2 = 3;
        const generatedPropsType = getGeneratedPropsConstantType(node, context);
        if (generatedPropsType === 0) {
          constantCache.set(node, 0);
          return 0;
        }
        if (generatedPropsType < returnType2) {
          returnType2 = generatedPropsType;
        }
        for (let i = 0; i < node.children.length; i++) {
          const childType = getConstantType(node.children[i], context);
          if (childType === 0) {
            constantCache.set(node, 0);
            return 0;
          }
          if (childType < returnType2) {
            returnType2 = childType;
          }
        }
        if (returnType2 > 1) {
          for (let i = 0; i < node.props.length; i++) {
            const p = node.props[i];
            if (p.type === 7 && p.name === "bind" && p.exp) {
              const expType = getConstantType(p.exp, context);
              if (expType === 0) {
                constantCache.set(node, 0);
                return 0;
              }
              if (expType < returnType2) {
                returnType2 = expType;
              }
            }
          }
        }
        if (codegenNode.isBlock) {
          for (let i = 0; i < node.props.length; i++) {
            const p = node.props[i];
            if (p.type === 7) {
              constantCache.set(node, 0);
              return 0;
            }
          }
          context.removeHelper(OPEN_BLOCK);
          context.removeHelper(
            getVNodeBlockHelper(context.inSSR, codegenNode.isComponent)
          );
          codegenNode.isBlock = false;
          context.helper(getVNodeHelper(context.inSSR, codegenNode.isComponent));
        }
        constantCache.set(node, returnType2);
        return returnType2;
      } else {
        constantCache.set(node, 0);
        return 0;
      }
    case 2:
    case 3:
      return 3;
    case 9:
    case 11:
    case 10:
      return 0;
    case 5:
    case 12:
      return getConstantType(node.content, context);
    case 4:
      return node.constType;
    case 8:
      let returnType = 3;
      for (let i = 0; i < node.children.length; i++) {
        const child = node.children[i];
        if (isString$2(child) || isSymbol$1(child)) {
          continue;
        }
        const childType = getConstantType(child, context);
        if (childType === 0) {
          return 0;
        } else if (childType < returnType) {
          returnType = childType;
        }
      }
      return returnType;
    default:
      return 0;
  }
}
const allowHoistedHelperSet = /* @__PURE__ */ new Set([
  NORMALIZE_CLASS,
  NORMALIZE_STYLE,
  NORMALIZE_PROPS,
  GUARD_REACTIVE_PROPS
]);
function getConstantTypeOfHelperCall(value, context) {
  if (value.type === 14 && !isString$2(value.callee) && allowHoistedHelperSet.has(value.callee)) {
    const arg = value.arguments[0];
    if (arg.type === 4) {
      return getConstantType(arg, context);
    } else if (arg.type === 14) {
      return getConstantTypeOfHelperCall(arg, context);
    }
  }
  return 0;
}
function getGeneratedPropsConstantType(node, context) {
  let returnType = 3;
  const props = getNodeProps(node);
  if (props && props.type === 15) {
    const { properties } = props;
    for (let i = 0; i < properties.length; i++) {
      const { key, value } = properties[i];
      const keyType = getConstantType(key, context);
      if (keyType === 0) {
        return keyType;
      }
      if (keyType < returnType) {
        returnType = keyType;
      }
      let valueType;
      if (value.type === 4) {
        valueType = getConstantType(value, context);
      } else if (value.type === 14) {
        valueType = getConstantTypeOfHelperCall(value, context);
      } else {
        valueType = 0;
      }
      if (valueType === 0) {
        return valueType;
      }
      if (valueType < returnType) {
        returnType = valueType;
      }
    }
  }
  return returnType;
}
function getNodeProps(node) {
  const codegenNode = node.codegenNode;
  if (codegenNode.type === 13) {
    return codegenNode.props;
  }
}
function getPatchFlag(node) {
  const flag = node.patchFlag;
  return flag ? parseInt(flag, 10) : void 0;
}

function createTransformContext(root, {
  filename = "",
  prefixIdentifiers = false,
  hoistStatic: hoistStatic2 = false,
  cacheHandlers = false,
  nodeTransforms = [],
  directiveTransforms = {},
  transformHoist = null,
  isBuiltInComponent = NOOP,
  isCustomElement = NOOP,
  expressionPlugins = [],
  scopeId = null,
  slotted = true,
  ssr = false,
  inSSR = false,
  ssrCssVars = ``,
  bindingMetadata = EMPTY_OBJ,
  inline = false,
  isTS = false,
  onError = defaultOnError,
  onWarn = defaultOnWarn,
  compatConfig
}) {
  const nameMatch = filename.replace(/\?.*$/, "").match(/([^/\\]+)\.\w+$/);
  const context = {
    // options
    selfName: nameMatch && capitalize$1(camelize(nameMatch[1])),
    prefixIdentifiers,
    hoistStatic: hoistStatic2,
    cacheHandlers,
    nodeTransforms,
    directiveTransforms,
    transformHoist,
    isBuiltInComponent,
    isCustomElement,
    expressionPlugins,
    scopeId,
    slotted,
    ssr,
    inSSR,
    ssrCssVars,
    bindingMetadata,
    inline,
    isTS,
    onError,
    onWarn,
    compatConfig,
    // state
    root,
    helpers: /* @__PURE__ */ new Map(),
    components: /* @__PURE__ */ new Set(),
    directives: /* @__PURE__ */ new Set(),
    hoists: [],
    imports: [],
    constantCache: /* @__PURE__ */ new Map(),
    temps: 0,
    cached: 0,
    identifiers: /* @__PURE__ */ Object.create(null),
    scopes: {
      vFor: 0,
      vSlot: 0,
      vPre: 0,
      vOnce: 0
    },
    parent: null,
    currentNode: root,
    childIndex: 0,
    inVOnce: false,
    // methods
    helper(name) {
      const count = context.helpers.get(name) || 0;
      context.helpers.set(name, count + 1);
      return name;
    },
    removeHelper(name) {
      const count = context.helpers.get(name);
      if (count) {
        const currentCount = count - 1;
        if (!currentCount) {
          context.helpers.delete(name);
        } else {
          context.helpers.set(name, currentCount);
        }
      }
    },
    helperString(name) {
      return `_${helperNameMap[context.helper(name)]}`;
    },
    replaceNode(node) {
      {
        if (!context.currentNode) {
          throw new Error(`Node being replaced is already removed.`);
        }
        if (!context.parent) {
          throw new Error(`Cannot replace root node.`);
        }
      }
      context.parent.children[context.childIndex] = context.currentNode = node;
    },
    removeNode(node) {
      if (!context.parent) {
        throw new Error(`Cannot remove root node.`);
      }
      const list = context.parent.children;
      const removalIndex = node ? list.indexOf(node) : context.currentNode ? context.childIndex : -1;
      if (removalIndex < 0) {
        throw new Error(`node being removed is not a child of current parent`);
      }
      if (!node || node === context.currentNode) {
        context.currentNode = null;
        context.onNodeRemoved();
      } else {
        if (context.childIndex > removalIndex) {
          context.childIndex--;
          context.onNodeRemoved();
        }
      }
      context.parent.children.splice(removalIndex, 1);
    },
    onNodeRemoved: () => {
    },
    addIdentifiers(exp) {
      {
        if (isString$2(exp)) {
          addId(exp);
        } else if (exp.identifiers) {
          exp.identifiers.forEach(addId);
        } else if (exp.type === 4) {
          addId(exp.content);
        }
      }
    },
    removeIdentifiers(exp) {
      {
        if (isString$2(exp)) {
          removeId(exp);
        } else if (exp.identifiers) {
          exp.identifiers.forEach(removeId);
        } else if (exp.type === 4) {
          removeId(exp.content);
        }
      }
    },
    hoist(exp) {
      if (isString$2(exp))
        exp = createSimpleExpression(exp);
      context.hoists.push(exp);
      const identifier = createSimpleExpression(
        `_hoisted_${context.hoists.length}`,
        false,
        exp.loc,
        2
      );
      identifier.hoisted = exp;
      return identifier;
    },
    cache(exp, isVNode = false) {
      return createCacheExpression(context.cached++, exp, isVNode);
    }
  };
  function addId(id) {
    const { identifiers } = context;
    if (identifiers[id] === void 0) {
      identifiers[id] = 0;
    }
    identifiers[id]++;
  }
  function removeId(id) {
    context.identifiers[id]--;
  }
  return context;
}
function transform$1(root, options) {
  const context = createTransformContext(root, options);
  traverseNode(root, context);
  if (options.hoistStatic) {
    hoistStatic(root, context);
  }
  if (!options.ssr) {
    createRootCodegen(root, context);
  }
  root.helpers = /* @__PURE__ */ new Set([...context.helpers.keys()]);
  root.components = [...context.components];
  root.directives = [...context.directives];
  root.imports = context.imports;
  root.hoists = context.hoists;
  root.temps = context.temps;
  root.cached = context.cached;
}
function createRootCodegen(root, context) {
  const { helper } = context;
  const { children } = root;
  if (children.length === 1) {
    const child = children[0];
    if (isSingleElementRoot(root, child) && child.codegenNode) {
      const codegenNode = child.codegenNode;
      if (codegenNode.type === 13) {
        convertToBlock(codegenNode, context);
      }
      root.codegenNode = codegenNode;
    } else {
      root.codegenNode = child;
    }
  } else if (children.length > 1) {
    let patchFlag = 64;
    let patchFlagText = PatchFlagNames[64];
    if (children.filter((c) => c.type !== 3).length === 1) {
      patchFlag |= 2048;
      patchFlagText += `, ${PatchFlagNames[2048]}`;
    }
    root.codegenNode = createVNodeCall(
      context,
      helper(FRAGMENT),
      void 0,
      root.children,
      patchFlag + (` /* ${patchFlagText} */` ),
      void 0,
      void 0,
      true,
      void 0,
      false
      /* isComponent */
    );
  } else ;
}
function traverseChildren(parent, context) {
  let i = 0;
  const nodeRemoved = () => {
    i--;
  };
  for (; i < parent.children.length; i++) {
    const child = parent.children[i];
    if (isString$2(child))
      continue;
    context.parent = parent;
    context.childIndex = i;
    context.onNodeRemoved = nodeRemoved;
    traverseNode(child, context);
  }
}
function traverseNode(node, context) {
  context.currentNode = node;
  const { nodeTransforms } = context;
  const exitFns = [];
  for (let i2 = 0; i2 < nodeTransforms.length; i2++) {
    const onExit = nodeTransforms[i2](node, context);
    if (onExit) {
      if (isArray$3(onExit)) {
        exitFns.push(...onExit);
      } else {
        exitFns.push(onExit);
      }
    }
    if (!context.currentNode) {
      return;
    } else {
      node = context.currentNode;
    }
  }
  switch (node.type) {
    case 3:
      if (!context.ssr) {
        context.helper(CREATE_COMMENT);
      }
      break;
    case 5:
      if (!context.ssr) {
        context.helper(TO_DISPLAY_STRING);
      }
      break;
    case 9:
      for (let i2 = 0; i2 < node.branches.length; i2++) {
        traverseNode(node.branches[i2], context);
      }
      break;
    case 10:
    case 11:
    case 1:
    case 0:
      traverseChildren(node, context);
      break;
  }
  context.currentNode = node;
  let i = exitFns.length;
  while (i--) {
    exitFns[i]();
  }
}
function createStructuralDirectiveTransform(name, fn) {
  const matches = isString$2(name) ? (n) => n === name : (n) => name.test(n);
  return (node, context) => {
    if (node.type === 1) {
      const { props } = node;
      if (node.tagType === 3 && props.some(isVSlot)) {
        return;
      }
      const exitFns = [];
      for (let i = 0; i < props.length; i++) {
        const prop = props[i];
        if (prop.type === 7 && matches(prop.name)) {
          props.splice(i, 1);
          i--;
          const onExit = fn(node, prop, context);
          if (onExit)
            exitFns.push(onExit);
        }
      }
      return exitFns;
    }
  };
}

var sourceMap$2 = {};

var sourceMapGenerator$1 = {};

var base64Vlq$1 = {};

var base64$3 = {};

/* -*- Mode: js; js-indent-level: 2; -*- */

/*
 * Copyright 2011 Mozilla Foundation and contributors
 * Licensed under the New BSD license. See LICENSE or:
 * http://opensource.org/licenses/BSD-3-Clause
 */

var intToCharMap$1 = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/'.split('');

/**
 * Encode an integer in the range of 0 to 63 to a single base 64 digit.
 */
base64$3.encode = function (number) {
  if (0 <= number && number < intToCharMap$1.length) {
    return intToCharMap$1[number];
  }
  throw new TypeError("Must be between 0 and 63: " + number);
};

/**
 * Decode a single base 64 character code digit to an integer. Returns -1 on
 * failure.
 */
base64$3.decode = function (charCode) {
  var bigA = 65;     // 'A'
  var bigZ = 90;     // 'Z'

  var littleA = 97;  // 'a'
  var littleZ = 122; // 'z'

  var zero = 48;     // '0'
  var nine = 57;     // '9'

  var plus = 43;     // '+'
  var slash = 47;    // '/'

  var littleOffset = 26;
  var numberOffset = 52;

  // 0 - 25: ABCDEFGHIJKLMNOPQRSTUVWXYZ
  if (bigA <= charCode && charCode <= bigZ) {
    return (charCode - bigA);
  }

  // 26 - 51: abcdefghijklmnopqrstuvwxyz
  if (littleA <= charCode && charCode <= littleZ) {
    return (charCode - littleA + littleOffset);
  }

  // 52 - 61: 0123456789
  if (zero <= charCode && charCode <= nine) {
    return (charCode - zero + numberOffset);
  }

  // 62: +
  if (charCode == plus) {
    return 62;
  }

  // 63: /
  if (charCode == slash) {
    return 63;
  }

  // Invalid base64 digit.
  return -1;
};

/* -*- Mode: js; js-indent-level: 2; -*- */

/*
 * Copyright 2011 Mozilla Foundation and contributors
 * Licensed under the New BSD license. See LICENSE or:
 * http://opensource.org/licenses/BSD-3-Clause
 *
 * Based on the Base 64 VLQ implementation in Closure Compiler:
 * https://code.google.com/p/closure-compiler/source/browse/trunk/src/com/google/debugging/sourcemap/Base64VLQ.java
 *
 * Copyright 2011 The Closure Compiler Authors. All rights reserved.
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are
 * met:
 *
 *  * Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 *  * Redistributions in binary form must reproduce the above
 *    copyright notice, this list of conditions and the following
 *    disclaimer in the documentation and/or other materials provided
 *    with the distribution.
 *  * Neither the name of Google Inc. nor the names of its
 *    contributors may be used to endorse or promote products derived
 *    from this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 */

var base64$2 = base64$3;

// A single base 64 digit can contain 6 bits of data. For the base 64 variable
// length quantities we use in the source map spec, the first bit is the sign,
// the next four bits are the actual value, and the 6th bit is the
// continuation bit. The continuation bit tells us whether there are more
// digits in this value following this digit.
//
//   Continuation
//   |    Sign
//   |    |
//   V    V
//   101011

var VLQ_BASE_SHIFT$1 = 5;

// binary: 100000
var VLQ_BASE$1 = 1 << VLQ_BASE_SHIFT$1;

// binary: 011111
var VLQ_BASE_MASK$1 = VLQ_BASE$1 - 1;

// binary: 100000
var VLQ_CONTINUATION_BIT$1 = VLQ_BASE$1;

/**
 * Converts from a two-complement value to a value where the sign bit is
 * placed in the least significant bit.  For example, as decimals:
 *   1 becomes 2 (10 binary), -1 becomes 3 (11 binary)
 *   2 becomes 4 (100 binary), -2 becomes 5 (101 binary)
 */
function toVLQSigned$1(aValue) {
  return aValue < 0
    ? ((-aValue) << 1) + 1
    : (aValue << 1) + 0;
}

/**
 * Converts to a two-complement value from a value where the sign bit is
 * placed in the least significant bit.  For example, as decimals:
 *   2 (10 binary) becomes 1, 3 (11 binary) becomes -1
 *   4 (100 binary) becomes 2, 5 (101 binary) becomes -2
 */
function fromVLQSigned$1(aValue) {
  var isNegative = (aValue & 1) === 1;
  var shifted = aValue >> 1;
  return isNegative
    ? -shifted
    : shifted;
}

/**
 * Returns the base 64 VLQ encoded value.
 */
base64Vlq$1.encode = function base64VLQ_encode(aValue) {
  var encoded = "";
  var digit;

  var vlq = toVLQSigned$1(aValue);

  do {
    digit = vlq & VLQ_BASE_MASK$1;
    vlq >>>= VLQ_BASE_SHIFT$1;
    if (vlq > 0) {
      // There are still more digits in this value, so we must make sure the
      // continuation bit is marked.
      digit |= VLQ_CONTINUATION_BIT$1;
    }
    encoded += base64$2.encode(digit);
  } while (vlq > 0);

  return encoded;
};

/**
 * Decodes the next base 64 VLQ value from the given string and returns the
 * value and the rest of the string via the out parameter.
 */
base64Vlq$1.decode = function base64VLQ_decode(aStr, aIndex, aOutParam) {
  var strLen = aStr.length;
  var result = 0;
  var shift = 0;
  var continuation, digit;

  do {
    if (aIndex >= strLen) {
      throw new Error("Expected more digits in base 64 VLQ value.");
    }

    digit = base64$2.decode(aStr.charCodeAt(aIndex++));
    if (digit === -1) {
      throw new Error("Invalid base64 digit: " + aStr.charAt(aIndex - 1));
    }

    continuation = !!(digit & VLQ_CONTINUATION_BIT$1);
    digit &= VLQ_BASE_MASK$1;
    result = result + (digit << shift);
    shift += VLQ_BASE_SHIFT$1;
  } while (continuation);

  aOutParam.value = fromVLQSigned$1(result);
  aOutParam.rest = aIndex;
};

var util$c = {};

/* -*- Mode: js; js-indent-level: 2; -*- */

(function (exports) {
	/*
	 * Copyright 2011 Mozilla Foundation and contributors
	 * Licensed under the New BSD license. See LICENSE or:
	 * http://opensource.org/licenses/BSD-3-Clause
	 */

	/**
	 * This is a helper function for getting values from parameter/options
	 * objects.
	 *
	 * @param args The object we are extracting values from
	 * @param name The name of the property we are getting.
	 * @param defaultValue An optional value to return if the property is missing
	 * from the object. If this is not specified and the property is missing, an
	 * error will be thrown.
	 */
	function getArg(aArgs, aName, aDefaultValue) {
	  if (aName in aArgs) {
	    return aArgs[aName];
	  } else if (arguments.length === 3) {
	    return aDefaultValue;
	  } else {
	    throw new Error('"' + aName + '" is a required argument.');
	  }
	}
	exports.getArg = getArg;

	var urlRegexp = /^(?:([\w+\-.]+):)?\/\/(?:(\w+:\w+)@)?([\w.-]*)(?::(\d+))?(.*)$/;
	var dataUrlRegexp = /^data:.+\,.+$/;

	function urlParse(aUrl) {
	  var match = aUrl.match(urlRegexp);
	  if (!match) {
	    return null;
	  }
	  return {
	    scheme: match[1],
	    auth: match[2],
	    host: match[3],
	    port: match[4],
	    path: match[5]
	  };
	}
	exports.urlParse = urlParse;

	function urlGenerate(aParsedUrl) {
	  var url = '';
	  if (aParsedUrl.scheme) {
	    url += aParsedUrl.scheme + ':';
	  }
	  url += '//';
	  if (aParsedUrl.auth) {
	    url += aParsedUrl.auth + '@';
	  }
	  if (aParsedUrl.host) {
	    url += aParsedUrl.host;
	  }
	  if (aParsedUrl.port) {
	    url += ":" + aParsedUrl.port;
	  }
	  if (aParsedUrl.path) {
	    url += aParsedUrl.path;
	  }
	  return url;
	}
	exports.urlGenerate = urlGenerate;

	var MAX_CACHED_INPUTS = 32;

	/**
	 * Takes some function `f(input) -> result` and returns a memoized version of
	 * `f`.
	 *
	 * We keep at most `MAX_CACHED_INPUTS` memoized results of `f` alive. The
	 * memoization is a dumb-simple, linear least-recently-used cache.
	 */
	function lruMemoize(f) {
	  var cache = [];

	  return function(input) {
	    for (var i = 0; i < cache.length; i++) {
	      if (cache[i].input === input) {
	        var temp = cache[0];
	        cache[0] = cache[i];
	        cache[i] = temp;
	        return cache[0].result;
	      }
	    }

	    var result = f(input);

	    cache.unshift({
	      input,
	      result,
	    });

	    if (cache.length > MAX_CACHED_INPUTS) {
	      cache.pop();
	    }

	    return result;
	  };
	}

	/**
	 * Normalizes a path, or the path portion of a URL:
	 *
	 * - Replaces consecutive slashes with one slash.
	 * - Removes unnecessary '.' parts.
	 * - Removes unnecessary '<dir>/..' parts.
	 *
	 * Based on code in the Node.js 'path' core module.
	 *
	 * @param aPath The path or url to normalize.
	 */
	var normalize = lruMemoize(function normalize(aPath) {
	  var path = aPath;
	  var url = urlParse(aPath);
	  if (url) {
	    if (!url.path) {
	      return aPath;
	    }
	    path = url.path;
	  }
	  var isAbsolute = exports.isAbsolute(path);
	  // Split the path into parts between `/` characters. This is much faster than
	  // using `.split(/\/+/g)`.
	  var parts = [];
	  var start = 0;
	  var i = 0;
	  while (true) {
	    start = i;
	    i = path.indexOf("/", start);
	    if (i === -1) {
	      parts.push(path.slice(start));
	      break;
	    } else {
	      parts.push(path.slice(start, i));
	      while (i < path.length && path[i] === "/") {
	        i++;
	      }
	    }
	  }

	  for (var part, up = 0, i = parts.length - 1; i >= 0; i--) {
	    part = parts[i];
	    if (part === '.') {
	      parts.splice(i, 1);
	    } else if (part === '..') {
	      up++;
	    } else if (up > 0) {
	      if (part === '') {
	        // The first part is blank if the path is absolute. Trying to go
	        // above the root is a no-op. Therefore we can remove all '..' parts
	        // directly after the root.
	        parts.splice(i + 1, up);
	        up = 0;
	      } else {
	        parts.splice(i, 2);
	        up--;
	      }
	    }
	  }
	  path = parts.join('/');

	  if (path === '') {
	    path = isAbsolute ? '/' : '.';
	  }

	  if (url) {
	    url.path = path;
	    return urlGenerate(url);
	  }
	  return path;
	});
	exports.normalize = normalize;

	/**
	 * Joins two paths/URLs.
	 *
	 * @param aRoot The root path or URL.
	 * @param aPath The path or URL to be joined with the root.
	 *
	 * - If aPath is a URL or a data URI, aPath is returned, unless aPath is a
	 *   scheme-relative URL: Then the scheme of aRoot, if any, is prepended
	 *   first.
	 * - Otherwise aPath is a path. If aRoot is a URL, then its path portion
	 *   is updated with the result and aRoot is returned. Otherwise the result
	 *   is returned.
	 *   - If aPath is absolute, the result is aPath.
	 *   - Otherwise the two paths are joined with a slash.
	 * - Joining for example 'http://' and 'www.example.com' is also supported.
	 */
	function join(aRoot, aPath) {
	  if (aRoot === "") {
	    aRoot = ".";
	  }
	  if (aPath === "") {
	    aPath = ".";
	  }
	  var aPathUrl = urlParse(aPath);
	  var aRootUrl = urlParse(aRoot);
	  if (aRootUrl) {
	    aRoot = aRootUrl.path || '/';
	  }

	  // `join(foo, '//www.example.org')`
	  if (aPathUrl && !aPathUrl.scheme) {
	    if (aRootUrl) {
	      aPathUrl.scheme = aRootUrl.scheme;
	    }
	    return urlGenerate(aPathUrl);
	  }

	  if (aPathUrl || aPath.match(dataUrlRegexp)) {
	    return aPath;
	  }

	  // `join('http://', 'www.example.com')`
	  if (aRootUrl && !aRootUrl.host && !aRootUrl.path) {
	    aRootUrl.host = aPath;
	    return urlGenerate(aRootUrl);
	  }

	  var joined = aPath.charAt(0) === '/'
	    ? aPath
	    : normalize(aRoot.replace(/\/+$/, '') + '/' + aPath);

	  if (aRootUrl) {
	    aRootUrl.path = joined;
	    return urlGenerate(aRootUrl);
	  }
	  return joined;
	}
	exports.join = join;

	exports.isAbsolute = function (aPath) {
	  return aPath.charAt(0) === '/' || urlRegexp.test(aPath);
	};

	/**
	 * Make a path relative to a URL or another path.
	 *
	 * @param aRoot The root path or URL.
	 * @param aPath The path or URL to be made relative to aRoot.
	 */
	function relative(aRoot, aPath) {
	  if (aRoot === "") {
	    aRoot = ".";
	  }

	  aRoot = aRoot.replace(/\/$/, '');

	  // It is possible for the path to be above the root. In this case, simply
	  // checking whether the root is a prefix of the path won't work. Instead, we
	  // need to remove components from the root one by one, until either we find
	  // a prefix that fits, or we run out of components to remove.
	  var level = 0;
	  while (aPath.indexOf(aRoot + '/') !== 0) {
	    var index = aRoot.lastIndexOf("/");
	    if (index < 0) {
	      return aPath;
	    }

	    // If the only part of the root that is left is the scheme (i.e. http://,
	    // file:///, etc.), one or more slashes (/), or simply nothing at all, we
	    // have exhausted all components, so the path is not relative to the root.
	    aRoot = aRoot.slice(0, index);
	    if (aRoot.match(/^([^\/]+:\/)?\/*$/)) {
	      return aPath;
	    }

	    ++level;
	  }

	  // Make sure we add a "../" for each component we removed from the root.
	  return Array(level + 1).join("../") + aPath.substr(aRoot.length + 1);
	}
	exports.relative = relative;

	var supportsNullProto = (function () {
	  var obj = Object.create(null);
	  return !('__proto__' in obj);
	}());

	function identity (s) {
	  return s;
	}

	/**
	 * Because behavior goes wacky when you set `__proto__` on objects, we
	 * have to prefix all the strings in our set with an arbitrary character.
	 *
	 * See https://github.com/mozilla/source-map/pull/31 and
	 * https://github.com/mozilla/source-map/issues/30
	 *
	 * @param String aStr
	 */
	function toSetString(aStr) {
	  if (isProtoString(aStr)) {
	    return '$' + aStr;
	  }

	  return aStr;
	}
	exports.toSetString = supportsNullProto ? identity : toSetString;

	function fromSetString(aStr) {
	  if (isProtoString(aStr)) {
	    return aStr.slice(1);
	  }

	  return aStr;
	}
	exports.fromSetString = supportsNullProto ? identity : fromSetString;

	function isProtoString(s) {
	  if (!s) {
	    return false;
	  }

	  var length = s.length;

	  if (length < 9 /* "__proto__".length */) {
	    return false;
	  }

	  if (s.charCodeAt(length - 1) !== 95  /* '_' */ ||
	      s.charCodeAt(length - 2) !== 95  /* '_' */ ||
	      s.charCodeAt(length - 3) !== 111 /* 'o' */ ||
	      s.charCodeAt(length - 4) !== 116 /* 't' */ ||
	      s.charCodeAt(length - 5) !== 111 /* 'o' */ ||
	      s.charCodeAt(length - 6) !== 114 /* 'r' */ ||
	      s.charCodeAt(length - 7) !== 112 /* 'p' */ ||
	      s.charCodeAt(length - 8) !== 95  /* '_' */ ||
	      s.charCodeAt(length - 9) !== 95  /* '_' */) {
	    return false;
	  }

	  for (var i = length - 10; i >= 0; i--) {
	    if (s.charCodeAt(i) !== 36 /* '$' */) {
	      return false;
	    }
	  }

	  return true;
	}

	/**
	 * Comparator between two mappings where the original positions are compared.
	 *
	 * Optionally pass in `true` as `onlyCompareGenerated` to consider two
	 * mappings with the same original source/line/column, but different generated
	 * line and column the same. Useful when searching for a mapping with a
	 * stubbed out mapping.
	 */
	function compareByOriginalPositions(mappingA, mappingB, onlyCompareOriginal) {
	  var cmp = strcmp(mappingA.source, mappingB.source);
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.originalLine - mappingB.originalLine;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.originalColumn - mappingB.originalColumn;
	  if (cmp !== 0 || onlyCompareOriginal) {
	    return cmp;
	  }

	  cmp = mappingA.generatedColumn - mappingB.generatedColumn;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.generatedLine - mappingB.generatedLine;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  return strcmp(mappingA.name, mappingB.name);
	}
	exports.compareByOriginalPositions = compareByOriginalPositions;

	function compareByOriginalPositionsNoSource(mappingA, mappingB, onlyCompareOriginal) {
	  var cmp;

	  cmp = mappingA.originalLine - mappingB.originalLine;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.originalColumn - mappingB.originalColumn;
	  if (cmp !== 0 || onlyCompareOriginal) {
	    return cmp;
	  }

	  cmp = mappingA.generatedColumn - mappingB.generatedColumn;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.generatedLine - mappingB.generatedLine;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  return strcmp(mappingA.name, mappingB.name);
	}
	exports.compareByOriginalPositionsNoSource = compareByOriginalPositionsNoSource;

	/**
	 * Comparator between two mappings with deflated source and name indices where
	 * the generated positions are compared.
	 *
	 * Optionally pass in `true` as `onlyCompareGenerated` to consider two
	 * mappings with the same generated line and column, but different
	 * source/name/original line and column the same. Useful when searching for a
	 * mapping with a stubbed out mapping.
	 */
	function compareByGeneratedPositionsDeflated(mappingA, mappingB, onlyCompareGenerated) {
	  var cmp = mappingA.generatedLine - mappingB.generatedLine;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.generatedColumn - mappingB.generatedColumn;
	  if (cmp !== 0 || onlyCompareGenerated) {
	    return cmp;
	  }

	  cmp = strcmp(mappingA.source, mappingB.source);
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.originalLine - mappingB.originalLine;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.originalColumn - mappingB.originalColumn;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  return strcmp(mappingA.name, mappingB.name);
	}
	exports.compareByGeneratedPositionsDeflated = compareByGeneratedPositionsDeflated;

	function compareByGeneratedPositionsDeflatedNoLine(mappingA, mappingB, onlyCompareGenerated) {
	  var cmp = mappingA.generatedColumn - mappingB.generatedColumn;
	  if (cmp !== 0 || onlyCompareGenerated) {
	    return cmp;
	  }

	  cmp = strcmp(mappingA.source, mappingB.source);
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.originalLine - mappingB.originalLine;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.originalColumn - mappingB.originalColumn;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  return strcmp(mappingA.name, mappingB.name);
	}
	exports.compareByGeneratedPositionsDeflatedNoLine = compareByGeneratedPositionsDeflatedNoLine;

	function strcmp(aStr1, aStr2) {
	  if (aStr1 === aStr2) {
	    return 0;
	  }

	  if (aStr1 === null) {
	    return 1; // aStr2 !== null
	  }

	  if (aStr2 === null) {
	    return -1; // aStr1 !== null
	  }

	  if (aStr1 > aStr2) {
	    return 1;
	  }

	  return -1;
	}

	/**
	 * Comparator between two mappings with inflated source and name strings where
	 * the generated positions are compared.
	 */
	function compareByGeneratedPositionsInflated(mappingA, mappingB) {
	  var cmp = mappingA.generatedLine - mappingB.generatedLine;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.generatedColumn - mappingB.generatedColumn;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = strcmp(mappingA.source, mappingB.source);
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.originalLine - mappingB.originalLine;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.originalColumn - mappingB.originalColumn;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  return strcmp(mappingA.name, mappingB.name);
	}
	exports.compareByGeneratedPositionsInflated = compareByGeneratedPositionsInflated;

	/**
	 * Strip any JSON XSSI avoidance prefix from the string (as documented
	 * in the source maps specification), and then parse the string as
	 * JSON.
	 */
	function parseSourceMapInput(str) {
	  return JSON.parse(str.replace(/^\)]}'[^\n]*\n/, ''));
	}
	exports.parseSourceMapInput = parseSourceMapInput;

	/**
	 * Compute the URL of a source given the the source root, the source's
	 * URL, and the source map's URL.
	 */
	function computeSourceURL(sourceRoot, sourceURL, sourceMapURL) {
	  sourceURL = sourceURL || '';

	  if (sourceRoot) {
	    // This follows what Chrome does.
	    if (sourceRoot[sourceRoot.length - 1] !== '/' && sourceURL[0] !== '/') {
	      sourceRoot += '/';
	    }
	    // The spec says:
	    //   Line 4: An optional source root, useful for relocating source
	    //   files on a server or removing repeated values in the
	    //   “sources” entry.  This value is prepended to the individual
	    //   entries in the “source” field.
	    sourceURL = sourceRoot + sourceURL;
	  }

	  // Historically, SourceMapConsumer did not take the sourceMapURL as
	  // a parameter.  This mode is still somewhat supported, which is why
	  // this code block is conditional.  However, it's preferable to pass
	  // the source map URL to SourceMapConsumer, so that this function
	  // can implement the source URL resolution algorithm as outlined in
	  // the spec.  This block is basically the equivalent of:
	  //    new URL(sourceURL, sourceMapURL).toString()
	  // ... except it avoids using URL, which wasn't available in the
	  // older releases of node still supported by this library.
	  //
	  // The spec says:
	  //   If the sources are not absolute URLs after prepending of the
	  //   “sourceRoot”, the sources are resolved relative to the
	  //   SourceMap (like resolving script src in a html document).
	  if (sourceMapURL) {
	    var parsed = urlParse(sourceMapURL);
	    if (!parsed) {
	      throw new Error("sourceMapURL could not be parsed");
	    }
	    if (parsed.path) {
	      // Strip the last path component, but keep the "/".
	      var index = parsed.path.lastIndexOf('/');
	      if (index >= 0) {
	        parsed.path = parsed.path.substring(0, index + 1);
	      }
	    }
	    sourceURL = join(urlGenerate(parsed), sourceURL);
	  }

	  return normalize(sourceURL);
	}
	exports.computeSourceURL = computeSourceURL;
} (util$c));

var arraySet$1 = {};

/* -*- Mode: js; js-indent-level: 2; -*- */

/*
 * Copyright 2011 Mozilla Foundation and contributors
 * Licensed under the New BSD license. See LICENSE or:
 * http://opensource.org/licenses/BSD-3-Clause
 */

var util$b = util$c;
var has$1 = Object.prototype.hasOwnProperty;
var hasNativeMap$1 = typeof Map !== "undefined";

/**
 * A data structure which is a combination of an array and a set. Adding a new
 * member is O(1), testing for membership is O(1), and finding the index of an
 * element is O(1). Removing elements from the set is not supported. Only
 * strings are supported for membership.
 */
function ArraySet$5() {
  this._array = [];
  this._set = hasNativeMap$1 ? new Map() : Object.create(null);
}

/**
 * Static method for creating ArraySet instances from an existing array.
 */
ArraySet$5.fromArray = function ArraySet_fromArray(aArray, aAllowDuplicates) {
  var set = new ArraySet$5();
  for (var i = 0, len = aArray.length; i < len; i++) {
    set.add(aArray[i], aAllowDuplicates);
  }
  return set;
};

/**
 * Return how many unique items are in this ArraySet. If duplicates have been
 * added, than those do not count towards the size.
 *
 * @returns Number
 */
ArraySet$5.prototype.size = function ArraySet_size() {
  return hasNativeMap$1 ? this._set.size : Object.getOwnPropertyNames(this._set).length;
};

/**
 * Add the given string to this set.
 *
 * @param String aStr
 */
ArraySet$5.prototype.add = function ArraySet_add(aStr, aAllowDuplicates) {
  var sStr = hasNativeMap$1 ? aStr : util$b.toSetString(aStr);
  var isDuplicate = hasNativeMap$1 ? this.has(aStr) : has$1.call(this._set, sStr);
  var idx = this._array.length;
  if (!isDuplicate || aAllowDuplicates) {
    this._array.push(aStr);
  }
  if (!isDuplicate) {
    if (hasNativeMap$1) {
      this._set.set(aStr, idx);
    } else {
      this._set[sStr] = idx;
    }
  }
};

/**
 * Is the given string a member of this set?
 *
 * @param String aStr
 */
ArraySet$5.prototype.has = function ArraySet_has(aStr) {
  if (hasNativeMap$1) {
    return this._set.has(aStr);
  } else {
    var sStr = util$b.toSetString(aStr);
    return has$1.call(this._set, sStr);
  }
};

/**
 * What is the index of the given string in the array?
 *
 * @param String aStr
 */
ArraySet$5.prototype.indexOf = function ArraySet_indexOf(aStr) {
  if (hasNativeMap$1) {
    var idx = this._set.get(aStr);
    if (idx >= 0) {
        return idx;
    }
  } else {
    var sStr = util$b.toSetString(aStr);
    if (has$1.call(this._set, sStr)) {
      return this._set[sStr];
    }
  }

  throw new Error('"' + aStr + '" is not in the set.');
};

/**
 * What is the element at the given index?
 *
 * @param Number aIdx
 */
ArraySet$5.prototype.at = function ArraySet_at(aIdx) {
  if (aIdx >= 0 && aIdx < this._array.length) {
    return this._array[aIdx];
  }
  throw new Error('No element indexed by ' + aIdx);
};

/**
 * Returns the array representation of this set (which has the proper indices
 * indicated by indexOf). Note that this is a copy of the internal array used
 * for storing the members so that no one can mess with internal state.
 */
ArraySet$5.prototype.toArray = function ArraySet_toArray() {
  return this._array.slice();
};

arraySet$1.ArraySet = ArraySet$5;

var mappingList$1 = {};

/* -*- Mode: js; js-indent-level: 2; -*- */

/*
 * Copyright 2014 Mozilla Foundation and contributors
 * Licensed under the New BSD license. See LICENSE or:
 * http://opensource.org/licenses/BSD-3-Clause
 */

var util$a = util$c;

/**
 * Determine whether mappingB is after mappingA with respect to generated
 * position.
 */
function generatedPositionAfter$1(mappingA, mappingB) {
  // Optimized for most common case
  var lineA = mappingA.generatedLine;
  var lineB = mappingB.generatedLine;
  var columnA = mappingA.generatedColumn;
  var columnB = mappingB.generatedColumn;
  return lineB > lineA || lineB == lineA && columnB >= columnA ||
         util$a.compareByGeneratedPositionsInflated(mappingA, mappingB) <= 0;
}

/**
 * A data structure to provide a sorted view of accumulated mappings in a
 * performance conscious manner. It trades a neglibable overhead in general
 * case for a large speedup in case of mappings being added in order.
 */
function MappingList$3() {
  this._array = [];
  this._sorted = true;
  // Serves as infimum
  this._last = {generatedLine: -1, generatedColumn: 0};
}

/**
 * Iterate through internal items. This method takes the same arguments that
 * `Array.prototype.forEach` takes.
 *
 * NOTE: The order of the mappings is NOT guaranteed.
 */
MappingList$3.prototype.unsortedForEach =
  function MappingList_forEach(aCallback, aThisArg) {
    this._array.forEach(aCallback, aThisArg);
  };

/**
 * Add the given source mapping.
 *
 * @param Object aMapping
 */
MappingList$3.prototype.add = function MappingList_add(aMapping) {
  if (generatedPositionAfter$1(this._last, aMapping)) {
    this._last = aMapping;
    this._array.push(aMapping);
  } else {
    this._sorted = false;
    this._array.push(aMapping);
  }
};

/**
 * Returns the flat, sorted array of mappings. The mappings are sorted by
 * generated position.
 *
 * WARNING: This method returns internal data without copying, for
 * performance. The return value must NOT be mutated, and should be treated as
 * an immutable borrow. If you want to take ownership, you must make your own
 * copy.
 */
MappingList$3.prototype.toArray = function MappingList_toArray() {
  if (!this._sorted) {
    this._array.sort(util$a.compareByGeneratedPositionsInflated);
    this._sorted = true;
  }
  return this._array;
};

mappingList$1.MappingList = MappingList$3;

/* -*- Mode: js; js-indent-level: 2; -*- */

/*
 * Copyright 2011 Mozilla Foundation and contributors
 * Licensed under the New BSD license. See LICENSE or:
 * http://opensource.org/licenses/BSD-3-Clause
 */

var base64VLQ$3 = base64Vlq$1;
var util$9 = util$c;
var ArraySet$4 = arraySet$1.ArraySet;
var MappingList$2 = mappingList$1.MappingList;

/**
 * An instance of the SourceMapGenerator represents a source map which is
 * being built incrementally. You may pass an object with the following
 * properties:
 *
 *   - file: The filename of the generated source.
 *   - sourceRoot: A root for all relative URLs in this source map.
 */
function SourceMapGenerator$8(aArgs) {
  if (!aArgs) {
    aArgs = {};
  }
  this._file = util$9.getArg(aArgs, 'file', null);
  this._sourceRoot = util$9.getArg(aArgs, 'sourceRoot', null);
  this._skipValidation = util$9.getArg(aArgs, 'skipValidation', false);
  this._sources = new ArraySet$4();
  this._names = new ArraySet$4();
  this._mappings = new MappingList$2();
  this._sourcesContents = null;
}

SourceMapGenerator$8.prototype._version = 3;

/**
 * Creates a new SourceMapGenerator based on a SourceMapConsumer
 *
 * @param aSourceMapConsumer The SourceMap.
 */
SourceMapGenerator$8.fromSourceMap =
  function SourceMapGenerator_fromSourceMap(aSourceMapConsumer) {
    var sourceRoot = aSourceMapConsumer.sourceRoot;
    var generator = new SourceMapGenerator$8({
      file: aSourceMapConsumer.file,
      sourceRoot: sourceRoot
    });
    aSourceMapConsumer.eachMapping(function (mapping) {
      var newMapping = {
        generated: {
          line: mapping.generatedLine,
          column: mapping.generatedColumn
        }
      };

      if (mapping.source != null) {
        newMapping.source = mapping.source;
        if (sourceRoot != null) {
          newMapping.source = util$9.relative(sourceRoot, newMapping.source);
        }

        newMapping.original = {
          line: mapping.originalLine,
          column: mapping.originalColumn
        };

        if (mapping.name != null) {
          newMapping.name = mapping.name;
        }
      }

      generator.addMapping(newMapping);
    });
    aSourceMapConsumer.sources.forEach(function (sourceFile) {
      var sourceRelative = sourceFile;
      if (sourceRoot !== null) {
        sourceRelative = util$9.relative(sourceRoot, sourceFile);
      }

      if (!generator._sources.has(sourceRelative)) {
        generator._sources.add(sourceRelative);
      }

      var content = aSourceMapConsumer.sourceContentFor(sourceFile);
      if (content != null) {
        generator.setSourceContent(sourceFile, content);
      }
    });
    return generator;
  };

/**
 * Add a single mapping from original source line and column to the generated
 * source's line and column for this source map being created. The mapping
 * object should have the following properties:
 *
 *   - generated: An object with the generated line and column positions.
 *   - original: An object with the original line and column positions.
 *   - source: The original source file (relative to the sourceRoot).
 *   - name: An optional original token name for this mapping.
 */
SourceMapGenerator$8.prototype.addMapping =
  function SourceMapGenerator_addMapping(aArgs) {
    var generated = util$9.getArg(aArgs, 'generated');
    var original = util$9.getArg(aArgs, 'original', null);
    var source = util$9.getArg(aArgs, 'source', null);
    var name = util$9.getArg(aArgs, 'name', null);

    if (!this._skipValidation) {
      this._validateMapping(generated, original, source, name);
    }

    if (source != null) {
      source = String(source);
      if (!this._sources.has(source)) {
        this._sources.add(source);
      }
    }

    if (name != null) {
      name = String(name);
      if (!this._names.has(name)) {
        this._names.add(name);
      }
    }

    this._mappings.add({
      generatedLine: generated.line,
      generatedColumn: generated.column,
      originalLine: original != null && original.line,
      originalColumn: original != null && original.column,
      source: source,
      name: name
    });
  };

/**
 * Set the source content for a source file.
 */
SourceMapGenerator$8.prototype.setSourceContent =
  function SourceMapGenerator_setSourceContent(aSourceFile, aSourceContent) {
    var source = aSourceFile;
    if (this._sourceRoot != null) {
      source = util$9.relative(this._sourceRoot, source);
    }

    if (aSourceContent != null) {
      // Add the source content to the _sourcesContents map.
      // Create a new _sourcesContents map if the property is null.
      if (!this._sourcesContents) {
        this._sourcesContents = Object.create(null);
      }
      this._sourcesContents[util$9.toSetString(source)] = aSourceContent;
    } else if (this._sourcesContents) {
      // Remove the source file from the _sourcesContents map.
      // If the _sourcesContents map is empty, set the property to null.
      delete this._sourcesContents[util$9.toSetString(source)];
      if (Object.keys(this._sourcesContents).length === 0) {
        this._sourcesContents = null;
      }
    }
  };

/**
 * Applies the mappings of a sub-source-map for a specific source file to the
 * source map being generated. Each mapping to the supplied source file is
 * rewritten using the supplied source map. Note: The resolution for the
 * resulting mappings is the minimium of this map and the supplied map.
 *
 * @param aSourceMapConsumer The source map to be applied.
 * @param aSourceFile Optional. The filename of the source file.
 *        If omitted, SourceMapConsumer's file property will be used.
 * @param aSourceMapPath Optional. The dirname of the path to the source map
 *        to be applied. If relative, it is relative to the SourceMapConsumer.
 *        This parameter is needed when the two source maps aren't in the same
 *        directory, and the source map to be applied contains relative source
 *        paths. If so, those relative source paths need to be rewritten
 *        relative to the SourceMapGenerator.
 */
SourceMapGenerator$8.prototype.applySourceMap =
  function SourceMapGenerator_applySourceMap(aSourceMapConsumer, aSourceFile, aSourceMapPath) {
    var sourceFile = aSourceFile;
    // If aSourceFile is omitted, we will use the file property of the SourceMap
    if (aSourceFile == null) {
      if (aSourceMapConsumer.file == null) {
        throw new Error(
          'SourceMapGenerator.prototype.applySourceMap requires either an explicit source file, ' +
          'or the source map\'s "file" property. Both were omitted.'
        );
      }
      sourceFile = aSourceMapConsumer.file;
    }
    var sourceRoot = this._sourceRoot;
    // Make "sourceFile" relative if an absolute Url is passed.
    if (sourceRoot != null) {
      sourceFile = util$9.relative(sourceRoot, sourceFile);
    }
    // Applying the SourceMap can add and remove items from the sources and
    // the names array.
    var newSources = new ArraySet$4();
    var newNames = new ArraySet$4();

    // Find mappings for the "sourceFile"
    this._mappings.unsortedForEach(function (mapping) {
      if (mapping.source === sourceFile && mapping.originalLine != null) {
        // Check if it can be mapped by the source map, then update the mapping.
        var original = aSourceMapConsumer.originalPositionFor({
          line: mapping.originalLine,
          column: mapping.originalColumn
        });
        if (original.source != null) {
          // Copy mapping
          mapping.source = original.source;
          if (aSourceMapPath != null) {
            mapping.source = util$9.join(aSourceMapPath, mapping.source);
          }
          if (sourceRoot != null) {
            mapping.source = util$9.relative(sourceRoot, mapping.source);
          }
          mapping.originalLine = original.line;
          mapping.originalColumn = original.column;
          if (original.name != null) {
            mapping.name = original.name;
          }
        }
      }

      var source = mapping.source;
      if (source != null && !newSources.has(source)) {
        newSources.add(source);
      }

      var name = mapping.name;
      if (name != null && !newNames.has(name)) {
        newNames.add(name);
      }

    }, this);
    this._sources = newSources;
    this._names = newNames;

    // Copy sourcesContents of applied map.
    aSourceMapConsumer.sources.forEach(function (sourceFile) {
      var content = aSourceMapConsumer.sourceContentFor(sourceFile);
      if (content != null) {
        if (aSourceMapPath != null) {
          sourceFile = util$9.join(aSourceMapPath, sourceFile);
        }
        if (sourceRoot != null) {
          sourceFile = util$9.relative(sourceRoot, sourceFile);
        }
        this.setSourceContent(sourceFile, content);
      }
    }, this);
  };

/**
 * A mapping can have one of the three levels of data:
 *
 *   1. Just the generated position.
 *   2. The Generated position, original position, and original source.
 *   3. Generated and original position, original source, as well as a name
 *      token.
 *
 * To maintain consistency, we validate that any new mapping being added falls
 * in to one of these categories.
 */
SourceMapGenerator$8.prototype._validateMapping =
  function SourceMapGenerator_validateMapping(aGenerated, aOriginal, aSource,
                                              aName) {
    // When aOriginal is truthy but has empty values for .line and .column,
    // it is most likely a programmer error. In this case we throw a very
    // specific error message to try to guide them the right way.
    // For example: https://github.com/Polymer/polymer-bundler/pull/519
    if (aOriginal && typeof aOriginal.line !== 'number' && typeof aOriginal.column !== 'number') {
        throw new Error(
            'original.line and original.column are not numbers -- you probably meant to omit ' +
            'the original mapping entirely and only map the generated position. If so, pass ' +
            'null for the original mapping instead of an object with empty or null values.'
        );
    }

    if (aGenerated && 'line' in aGenerated && 'column' in aGenerated
        && aGenerated.line > 0 && aGenerated.column >= 0
        && !aOriginal && !aSource && !aName) {
      // Case 1.
      return;
    }
    else if (aGenerated && 'line' in aGenerated && 'column' in aGenerated
             && aOriginal && 'line' in aOriginal && 'column' in aOriginal
             && aGenerated.line > 0 && aGenerated.column >= 0
             && aOriginal.line > 0 && aOriginal.column >= 0
             && aSource) {
      // Cases 2 and 3.
      return;
    }
    else {
      throw new Error('Invalid mapping: ' + JSON.stringify({
        generated: aGenerated,
        source: aSource,
        original: aOriginal,
        name: aName
      }));
    }
  };

/**
 * Serialize the accumulated mappings in to the stream of base 64 VLQs
 * specified by the source map format.
 */
SourceMapGenerator$8.prototype._serializeMappings =
  function SourceMapGenerator_serializeMappings() {
    var previousGeneratedColumn = 0;
    var previousGeneratedLine = 1;
    var previousOriginalColumn = 0;
    var previousOriginalLine = 0;
    var previousName = 0;
    var previousSource = 0;
    var result = '';
    var next;
    var mapping;
    var nameIdx;
    var sourceIdx;

    var mappings = this._mappings.toArray();
    for (var i = 0, len = mappings.length; i < len; i++) {
      mapping = mappings[i];
      next = '';

      if (mapping.generatedLine !== previousGeneratedLine) {
        previousGeneratedColumn = 0;
        while (mapping.generatedLine !== previousGeneratedLine) {
          next += ';';
          previousGeneratedLine++;
        }
      }
      else {
        if (i > 0) {
          if (!util$9.compareByGeneratedPositionsInflated(mapping, mappings[i - 1])) {
            continue;
          }
          next += ',';
        }
      }

      next += base64VLQ$3.encode(mapping.generatedColumn
                                 - previousGeneratedColumn);
      previousGeneratedColumn = mapping.generatedColumn;

      if (mapping.source != null) {
        sourceIdx = this._sources.indexOf(mapping.source);
        next += base64VLQ$3.encode(sourceIdx - previousSource);
        previousSource = sourceIdx;

        // lines are stored 0-based in SourceMap spec version 3
        next += base64VLQ$3.encode(mapping.originalLine - 1
                                   - previousOriginalLine);
        previousOriginalLine = mapping.originalLine - 1;

        next += base64VLQ$3.encode(mapping.originalColumn
                                   - previousOriginalColumn);
        previousOriginalColumn = mapping.originalColumn;

        if (mapping.name != null) {
          nameIdx = this._names.indexOf(mapping.name);
          next += base64VLQ$3.encode(nameIdx - previousName);
          previousName = nameIdx;
        }
      }

      result += next;
    }

    return result;
  };

SourceMapGenerator$8.prototype._generateSourcesContent =
  function SourceMapGenerator_generateSourcesContent(aSources, aSourceRoot) {
    return aSources.map(function (source) {
      if (!this._sourcesContents) {
        return null;
      }
      if (aSourceRoot != null) {
        source = util$9.relative(aSourceRoot, source);
      }
      var key = util$9.toSetString(source);
      return Object.prototype.hasOwnProperty.call(this._sourcesContents, key)
        ? this._sourcesContents[key]
        : null;
    }, this);
  };

/**
 * Externalize the source map.
 */
SourceMapGenerator$8.prototype.toJSON =
  function SourceMapGenerator_toJSON() {
    var map = {
      version: this._version,
      sources: this._sources.toArray(),
      names: this._names.toArray(),
      mappings: this._serializeMappings()
    };
    if (this._file != null) {
      map.file = this._file;
    }
    if (this._sourceRoot != null) {
      map.sourceRoot = this._sourceRoot;
    }
    if (this._sourcesContents) {
      map.sourcesContent = this._generateSourcesContent(map.sources, map.sourceRoot);
    }

    return map;
  };

/**
 * Render the source map being generated to a string.
 */
SourceMapGenerator$8.prototype.toString =
  function SourceMapGenerator_toString() {
    return JSON.stringify(this.toJSON());
  };

sourceMapGenerator$1.SourceMapGenerator = SourceMapGenerator$8;

var sourceMapConsumer$1 = {};

var binarySearch$3 = {};

/* -*- Mode: js; js-indent-level: 2; -*- */

(function (exports) {
	/*
	 * Copyright 2011 Mozilla Foundation and contributors
	 * Licensed under the New BSD license. See LICENSE or:
	 * http://opensource.org/licenses/BSD-3-Clause
	 */

	exports.GREATEST_LOWER_BOUND = 1;
	exports.LEAST_UPPER_BOUND = 2;

	/**
	 * Recursive implementation of binary search.
	 *
	 * @param aLow Indices here and lower do not contain the needle.
	 * @param aHigh Indices here and higher do not contain the needle.
	 * @param aNeedle The element being searched for.
	 * @param aHaystack The non-empty array being searched.
	 * @param aCompare Function which takes two elements and returns -1, 0, or 1.
	 * @param aBias Either 'binarySearch.GREATEST_LOWER_BOUND' or
	 *     'binarySearch.LEAST_UPPER_BOUND'. Specifies whether to return the
	 *     closest element that is smaller than or greater than the one we are
	 *     searching for, respectively, if the exact element cannot be found.
	 */
	function recursiveSearch(aLow, aHigh, aNeedle, aHaystack, aCompare, aBias) {
	  // This function terminates when one of the following is true:
	  //
	  //   1. We find the exact element we are looking for.
	  //
	  //   2. We did not find the exact element, but we can return the index of
	  //      the next-closest element.
	  //
	  //   3. We did not find the exact element, and there is no next-closest
	  //      element than the one we are searching for, so we return -1.
	  var mid = Math.floor((aHigh - aLow) / 2) + aLow;
	  var cmp = aCompare(aNeedle, aHaystack[mid], true);
	  if (cmp === 0) {
	    // Found the element we are looking for.
	    return mid;
	  }
	  else if (cmp > 0) {
	    // Our needle is greater than aHaystack[mid].
	    if (aHigh - mid > 1) {
	      // The element is in the upper half.
	      return recursiveSearch(mid, aHigh, aNeedle, aHaystack, aCompare, aBias);
	    }

	    // The exact needle element was not found in this haystack. Determine if
	    // we are in termination case (3) or (2) and return the appropriate thing.
	    if (aBias == exports.LEAST_UPPER_BOUND) {
	      return aHigh < aHaystack.length ? aHigh : -1;
	    } else {
	      return mid;
	    }
	  }
	  else {
	    // Our needle is less than aHaystack[mid].
	    if (mid - aLow > 1) {
	      // The element is in the lower half.
	      return recursiveSearch(aLow, mid, aNeedle, aHaystack, aCompare, aBias);
	    }

	    // we are in termination case (3) or (2) and return the appropriate thing.
	    if (aBias == exports.LEAST_UPPER_BOUND) {
	      return mid;
	    } else {
	      return aLow < 0 ? -1 : aLow;
	    }
	  }
	}

	/**
	 * This is an implementation of binary search which will always try and return
	 * the index of the closest element if there is no exact hit. This is because
	 * mappings between original and generated line/col pairs are single points,
	 * and there is an implicit region between each of them, so a miss just means
	 * that you aren't on the very start of a region.
	 *
	 * @param aNeedle The element you are looking for.
	 * @param aHaystack The array that is being searched.
	 * @param aCompare A function which takes the needle and an element in the
	 *     array and returns -1, 0, or 1 depending on whether the needle is less
	 *     than, equal to, or greater than the element, respectively.
	 * @param aBias Either 'binarySearch.GREATEST_LOWER_BOUND' or
	 *     'binarySearch.LEAST_UPPER_BOUND'. Specifies whether to return the
	 *     closest element that is smaller than or greater than the one we are
	 *     searching for, respectively, if the exact element cannot be found.
	 *     Defaults to 'binarySearch.GREATEST_LOWER_BOUND'.
	 */
	exports.search = function search(aNeedle, aHaystack, aCompare, aBias) {
	  if (aHaystack.length === 0) {
	    return -1;
	  }

	  var index = recursiveSearch(-1, aHaystack.length, aNeedle, aHaystack,
	                              aCompare, aBias || exports.GREATEST_LOWER_BOUND);
	  if (index < 0) {
	    return -1;
	  }

	  // We have found either the exact element, or the next-closest element than
	  // the one we are searching for. However, there may be more than one such
	  // element. Make sure we always return the smallest of these.
	  while (index - 1 >= 0) {
	    if (aCompare(aHaystack[index], aHaystack[index - 1], true) !== 0) {
	      break;
	    }
	    --index;
	  }

	  return index;
	};
} (binarySearch$3));

var quickSort$3 = {};

/* -*- Mode: js; js-indent-level: 2; -*- */

/*
 * Copyright 2011 Mozilla Foundation and contributors
 * Licensed under the New BSD license. See LICENSE or:
 * http://opensource.org/licenses/BSD-3-Clause
 */

// It turns out that some (most?) JavaScript engines don't self-host
// `Array.prototype.sort`. This makes sense because C++ will likely remain
// faster than JS when doing raw CPU-intensive sorting. However, when using a
// custom comparator function, calling back and forth between the VM's C++ and
// JIT'd JS is rather slow *and* loses JIT type information, resulting in
// worse generated code for the comparator function than would be optimal. In
// fact, when sorting with a comparator, these costs outweigh the benefits of
// sorting in C++. By using our own JS-implemented Quick Sort (below), we get
// a ~3500ms mean speed-up in `bench/bench.html`.

function SortTemplate(comparator) {

/**
 * Swap the elements indexed by `x` and `y` in the array `ary`.
 *
 * @param {Array} ary
 *        The array.
 * @param {Number} x
 *        The index of the first item.
 * @param {Number} y
 *        The index of the second item.
 */
function swap(ary, x, y) {
  var temp = ary[x];
  ary[x] = ary[y];
  ary[y] = temp;
}

/**
 * Returns a random integer within the range `low .. high` inclusive.
 *
 * @param {Number} low
 *        The lower bound on the range.
 * @param {Number} high
 *        The upper bound on the range.
 */
function randomIntInRange(low, high) {
  return Math.round(low + (Math.random() * (high - low)));
}

/**
 * The Quick Sort algorithm.
 *
 * @param {Array} ary
 *        An array to sort.
 * @param {function} comparator
 *        Function to use to compare two items.
 * @param {Number} p
 *        Start index of the array
 * @param {Number} r
 *        End index of the array
 */
function doQuickSort(ary, comparator, p, r) {
  // If our lower bound is less than our upper bound, we (1) partition the
  // array into two pieces and (2) recurse on each half. If it is not, this is
  // the empty array and our base case.

  if (p < r) {
    // (1) Partitioning.
    //
    // The partitioning chooses a pivot between `p` and `r` and moves all
    // elements that are less than or equal to the pivot to the before it, and
    // all the elements that are greater than it after it. The effect is that
    // once partition is done, the pivot is in the exact place it will be when
    // the array is put in sorted order, and it will not need to be moved
    // again. This runs in O(n) time.

    // Always choose a random pivot so that an input array which is reverse
    // sorted does not cause O(n^2) running time.
    var pivotIndex = randomIntInRange(p, r);
    var i = p - 1;

    swap(ary, pivotIndex, r);
    var pivot = ary[r];

    // Immediately after `j` is incremented in this loop, the following hold
    // true:
    //
    //   * Every element in `ary[p .. i]` is less than or equal to the pivot.
    //
    //   * Every element in `ary[i+1 .. j-1]` is greater than the pivot.
    for (var j = p; j < r; j++) {
      if (comparator(ary[j], pivot, false) <= 0) {
        i += 1;
        swap(ary, i, j);
      }
    }

    swap(ary, i + 1, j);
    var q = i + 1;

    // (2) Recurse on each half.

    doQuickSort(ary, comparator, p, q - 1);
    doQuickSort(ary, comparator, q + 1, r);
  }
}

  return doQuickSort;
}

function cloneSort(comparator) {
  let template = SortTemplate.toString();
  let templateFn = new Function(`return ${template}`)();
  return templateFn(comparator);
}

/**
 * Sort the given array in-place with the given comparator function.
 *
 * @param {Array} ary
 *        An array to sort.
 * @param {function} comparator
 *        Function to use to compare two items.
 */

let sortCache = new WeakMap();
quickSort$3.quickSort = function (ary, comparator, start = 0) {
  let doQuickSort = sortCache.get(comparator);
  if (doQuickSort === void 0) {
    doQuickSort = cloneSort(comparator);
    sortCache.set(comparator, doQuickSort);
  }
  doQuickSort(ary, comparator, start, ary.length - 1);
};

/* -*- Mode: js; js-indent-level: 2; -*- */

/*
 * Copyright 2011 Mozilla Foundation and contributors
 * Licensed under the New BSD license. See LICENSE or:
 * http://opensource.org/licenses/BSD-3-Clause
 */

var util$8 = util$c;
var binarySearch$2 = binarySearch$3;
var ArraySet$3 = arraySet$1.ArraySet;
var base64VLQ$2 = base64Vlq$1;
var quickSort$2 = quickSort$3.quickSort;

function SourceMapConsumer$6(aSourceMap, aSourceMapURL) {
  var sourceMap = aSourceMap;
  if (typeof aSourceMap === 'string') {
    sourceMap = util$8.parseSourceMapInput(aSourceMap);
  }

  return sourceMap.sections != null
    ? new IndexedSourceMapConsumer$1(sourceMap, aSourceMapURL)
    : new BasicSourceMapConsumer$1(sourceMap, aSourceMapURL);
}

SourceMapConsumer$6.fromSourceMap = function(aSourceMap, aSourceMapURL) {
  return BasicSourceMapConsumer$1.fromSourceMap(aSourceMap, aSourceMapURL);
};

/**
 * The version of the source mapping spec that we are consuming.
 */
SourceMapConsumer$6.prototype._version = 3;

// `__generatedMappings` and `__originalMappings` are arrays that hold the
// parsed mapping coordinates from the source map's "mappings" attribute. They
// are lazily instantiated, accessed via the `_generatedMappings` and
// `_originalMappings` getters respectively, and we only parse the mappings
// and create these arrays once queried for a source location. We jump through
// these hoops because there can be many thousands of mappings, and parsing
// them is expensive, so we only want to do it if we must.
//
// Each object in the arrays is of the form:
//
//     {
//       generatedLine: The line number in the generated code,
//       generatedColumn: The column number in the generated code,
//       source: The path to the original source file that generated this
//               chunk of code,
//       originalLine: The line number in the original source that
//                     corresponds to this chunk of generated code,
//       originalColumn: The column number in the original source that
//                       corresponds to this chunk of generated code,
//       name: The name of the original symbol which generated this chunk of
//             code.
//     }
//
// All properties except for `generatedLine` and `generatedColumn` can be
// `null`.
//
// `_generatedMappings` is ordered by the generated positions.
//
// `_originalMappings` is ordered by the original positions.

SourceMapConsumer$6.prototype.__generatedMappings = null;
Object.defineProperty(SourceMapConsumer$6.prototype, '_generatedMappings', {
  configurable: true,
  enumerable: true,
  get: function () {
    if (!this.__generatedMappings) {
      this._parseMappings(this._mappings, this.sourceRoot);
    }

    return this.__generatedMappings;
  }
});

SourceMapConsumer$6.prototype.__originalMappings = null;
Object.defineProperty(SourceMapConsumer$6.prototype, '_originalMappings', {
  configurable: true,
  enumerable: true,
  get: function () {
    if (!this.__originalMappings) {
      this._parseMappings(this._mappings, this.sourceRoot);
    }

    return this.__originalMappings;
  }
});

SourceMapConsumer$6.prototype._charIsMappingSeparator =
  function SourceMapConsumer_charIsMappingSeparator(aStr, index) {
    var c = aStr.charAt(index);
    return c === ";" || c === ",";
  };

/**
 * Parse the mappings in a string in to a data structure which we can easily
 * query (the ordered arrays in the `this.__generatedMappings` and
 * `this.__originalMappings` properties).
 */
SourceMapConsumer$6.prototype._parseMappings =
  function SourceMapConsumer_parseMappings(aStr, aSourceRoot) {
    throw new Error("Subclasses must implement _parseMappings");
  };

SourceMapConsumer$6.GENERATED_ORDER = 1;
SourceMapConsumer$6.ORIGINAL_ORDER = 2;

SourceMapConsumer$6.GREATEST_LOWER_BOUND = 1;
SourceMapConsumer$6.LEAST_UPPER_BOUND = 2;

/**
 * Iterate over each mapping between an original source/line/column and a
 * generated line/column in this source map.
 *
 * @param Function aCallback
 *        The function that is called with each mapping.
 * @param Object aContext
 *        Optional. If specified, this object will be the value of `this` every
 *        time that `aCallback` is called.
 * @param aOrder
 *        Either `SourceMapConsumer.GENERATED_ORDER` or
 *        `SourceMapConsumer.ORIGINAL_ORDER`. Specifies whether you want to
 *        iterate over the mappings sorted by the generated file's line/column
 *        order or the original's source/line/column order, respectively. Defaults to
 *        `SourceMapConsumer.GENERATED_ORDER`.
 */
SourceMapConsumer$6.prototype.eachMapping =
  function SourceMapConsumer_eachMapping(aCallback, aContext, aOrder) {
    var context = aContext || null;
    var order = aOrder || SourceMapConsumer$6.GENERATED_ORDER;

    var mappings;
    switch (order) {
    case SourceMapConsumer$6.GENERATED_ORDER:
      mappings = this._generatedMappings;
      break;
    case SourceMapConsumer$6.ORIGINAL_ORDER:
      mappings = this._originalMappings;
      break;
    default:
      throw new Error("Unknown order of iteration.");
    }

    var sourceRoot = this.sourceRoot;
    var boundCallback = aCallback.bind(context);
    var names = this._names;
    var sources = this._sources;
    var sourceMapURL = this._sourceMapURL;

    for (var i = 0, n = mappings.length; i < n; i++) {
      var mapping = mappings[i];
      var source = mapping.source === null ? null : sources.at(mapping.source);
      source = util$8.computeSourceURL(sourceRoot, source, sourceMapURL);
      boundCallback({
        source: source,
        generatedLine: mapping.generatedLine,
        generatedColumn: mapping.generatedColumn,
        originalLine: mapping.originalLine,
        originalColumn: mapping.originalColumn,
        name: mapping.name === null ? null : names.at(mapping.name)
      });
    }
  };

/**
 * Returns all generated line and column information for the original source,
 * line, and column provided. If no column is provided, returns all mappings
 * corresponding to a either the line we are searching for or the next
 * closest line that has any mappings. Otherwise, returns all mappings
 * corresponding to the given line and either the column we are searching for
 * or the next closest column that has any offsets.
 *
 * The only argument is an object with the following properties:
 *
 *   - source: The filename of the original source.
 *   - line: The line number in the original source.  The line number is 1-based.
 *   - column: Optional. the column number in the original source.
 *    The column number is 0-based.
 *
 * and an array of objects is returned, each with the following properties:
 *
 *   - line: The line number in the generated source, or null.  The
 *    line number is 1-based.
 *   - column: The column number in the generated source, or null.
 *    The column number is 0-based.
 */
SourceMapConsumer$6.prototype.allGeneratedPositionsFor =
  function SourceMapConsumer_allGeneratedPositionsFor(aArgs) {
    var line = util$8.getArg(aArgs, 'line');

    // When there is no exact match, BasicSourceMapConsumer.prototype._findMapping
    // returns the index of the closest mapping less than the needle. By
    // setting needle.originalColumn to 0, we thus find the last mapping for
    // the given line, provided such a mapping exists.
    var needle = {
      source: util$8.getArg(aArgs, 'source'),
      originalLine: line,
      originalColumn: util$8.getArg(aArgs, 'column', 0)
    };

    needle.source = this._findSourceIndex(needle.source);
    if (needle.source < 0) {
      return [];
    }

    var mappings = [];

    var index = this._findMapping(needle,
                                  this._originalMappings,
                                  "originalLine",
                                  "originalColumn",
                                  util$8.compareByOriginalPositions,
                                  binarySearch$2.LEAST_UPPER_BOUND);
    if (index >= 0) {
      var mapping = this._originalMappings[index];

      if (aArgs.column === undefined) {
        var originalLine = mapping.originalLine;

        // Iterate until either we run out of mappings, or we run into
        // a mapping for a different line than the one we found. Since
        // mappings are sorted, this is guaranteed to find all mappings for
        // the line we found.
        while (mapping && mapping.originalLine === originalLine) {
          mappings.push({
            line: util$8.getArg(mapping, 'generatedLine', null),
            column: util$8.getArg(mapping, 'generatedColumn', null),
            lastColumn: util$8.getArg(mapping, 'lastGeneratedColumn', null)
          });

          mapping = this._originalMappings[++index];
        }
      } else {
        var originalColumn = mapping.originalColumn;

        // Iterate until either we run out of mappings, or we run into
        // a mapping for a different line than the one we were searching for.
        // Since mappings are sorted, this is guaranteed to find all mappings for
        // the line we are searching for.
        while (mapping &&
               mapping.originalLine === line &&
               mapping.originalColumn == originalColumn) {
          mappings.push({
            line: util$8.getArg(mapping, 'generatedLine', null),
            column: util$8.getArg(mapping, 'generatedColumn', null),
            lastColumn: util$8.getArg(mapping, 'lastGeneratedColumn', null)
          });

          mapping = this._originalMappings[++index];
        }
      }
    }

    return mappings;
  };

sourceMapConsumer$1.SourceMapConsumer = SourceMapConsumer$6;

/**
 * A BasicSourceMapConsumer instance represents a parsed source map which we can
 * query for information about the original file positions by giving it a file
 * position in the generated source.
 *
 * The first parameter is the raw source map (either as a JSON string, or
 * already parsed to an object). According to the spec, source maps have the
 * following attributes:
 *
 *   - version: Which version of the source map spec this map is following.
 *   - sources: An array of URLs to the original source files.
 *   - names: An array of identifiers which can be referrenced by individual mappings.
 *   - sourceRoot: Optional. The URL root from which all sources are relative.
 *   - sourcesContent: Optional. An array of contents of the original source files.
 *   - mappings: A string of base64 VLQs which contain the actual mappings.
 *   - file: Optional. The generated file this source map is associated with.
 *
 * Here is an example source map, taken from the source map spec[0]:
 *
 *     {
 *       version : 3,
 *       file: "out.js",
 *       sourceRoot : "",
 *       sources: ["foo.js", "bar.js"],
 *       names: ["src", "maps", "are", "fun"],
 *       mappings: "AA,AB;;ABCDE;"
 *     }
 *
 * The second parameter, if given, is a string whose value is the URL
 * at which the source map was found.  This URL is used to compute the
 * sources array.
 *
 * [0]: https://docs.google.com/document/d/1U1RGAehQwRypUTovF1KRlpiOFze0b-_2gc6fAH0KY0k/edit?pli=1#
 */
function BasicSourceMapConsumer$1(aSourceMap, aSourceMapURL) {
  var sourceMap = aSourceMap;
  if (typeof aSourceMap === 'string') {
    sourceMap = util$8.parseSourceMapInput(aSourceMap);
  }

  var version = util$8.getArg(sourceMap, 'version');
  var sources = util$8.getArg(sourceMap, 'sources');
  // Sass 3.3 leaves out the 'names' array, so we deviate from the spec (which
  // requires the array) to play nice here.
  var names = util$8.getArg(sourceMap, 'names', []);
  var sourceRoot = util$8.getArg(sourceMap, 'sourceRoot', null);
  var sourcesContent = util$8.getArg(sourceMap, 'sourcesContent', null);
  var mappings = util$8.getArg(sourceMap, 'mappings');
  var file = util$8.getArg(sourceMap, 'file', null);

  // Once again, Sass deviates from the spec and supplies the version as a
  // string rather than a number, so we use loose equality checking here.
  if (version != this._version) {
    throw new Error('Unsupported version: ' + version);
  }

  if (sourceRoot) {
    sourceRoot = util$8.normalize(sourceRoot);
  }

  sources = sources
    .map(String)
    // Some source maps produce relative source paths like "./foo.js" instead of
    // "foo.js".  Normalize these first so that future comparisons will succeed.
    // See bugzil.la/1090768.
    .map(util$8.normalize)
    // Always ensure that absolute sources are internally stored relative to
    // the source root, if the source root is absolute. Not doing this would
    // be particularly problematic when the source root is a prefix of the
    // source (valid, but why??). See github issue #199 and bugzil.la/1188982.
    .map(function (source) {
      return sourceRoot && util$8.isAbsolute(sourceRoot) && util$8.isAbsolute(source)
        ? util$8.relative(sourceRoot, source)
        : source;
    });

  // Pass `true` below to allow duplicate names and sources. While source maps
  // are intended to be compressed and deduplicated, the TypeScript compiler
  // sometimes generates source maps with duplicates in them. See Github issue
  // #72 and bugzil.la/889492.
  this._names = ArraySet$3.fromArray(names.map(String), true);
  this._sources = ArraySet$3.fromArray(sources, true);

  this._absoluteSources = this._sources.toArray().map(function (s) {
    return util$8.computeSourceURL(sourceRoot, s, aSourceMapURL);
  });

  this.sourceRoot = sourceRoot;
  this.sourcesContent = sourcesContent;
  this._mappings = mappings;
  this._sourceMapURL = aSourceMapURL;
  this.file = file;
}

BasicSourceMapConsumer$1.prototype = Object.create(SourceMapConsumer$6.prototype);
BasicSourceMapConsumer$1.prototype.consumer = SourceMapConsumer$6;

/**
 * Utility function to find the index of a source.  Returns -1 if not
 * found.
 */
BasicSourceMapConsumer$1.prototype._findSourceIndex = function(aSource) {
  var relativeSource = aSource;
  if (this.sourceRoot != null) {
    relativeSource = util$8.relative(this.sourceRoot, relativeSource);
  }

  if (this._sources.has(relativeSource)) {
    return this._sources.indexOf(relativeSource);
  }

  // Maybe aSource is an absolute URL as returned by |sources|.  In
  // this case we can't simply undo the transform.
  var i;
  for (i = 0; i < this._absoluteSources.length; ++i) {
    if (this._absoluteSources[i] == aSource) {
      return i;
    }
  }

  return -1;
};

/**
 * Create a BasicSourceMapConsumer from a SourceMapGenerator.
 *
 * @param SourceMapGenerator aSourceMap
 *        The source map that will be consumed.
 * @param String aSourceMapURL
 *        The URL at which the source map can be found (optional)
 * @returns BasicSourceMapConsumer
 */
BasicSourceMapConsumer$1.fromSourceMap =
  function SourceMapConsumer_fromSourceMap(aSourceMap, aSourceMapURL) {
    var smc = Object.create(BasicSourceMapConsumer$1.prototype);

    var names = smc._names = ArraySet$3.fromArray(aSourceMap._names.toArray(), true);
    var sources = smc._sources = ArraySet$3.fromArray(aSourceMap._sources.toArray(), true);
    smc.sourceRoot = aSourceMap._sourceRoot;
    smc.sourcesContent = aSourceMap._generateSourcesContent(smc._sources.toArray(),
                                                            smc.sourceRoot);
    smc.file = aSourceMap._file;
    smc._sourceMapURL = aSourceMapURL;
    smc._absoluteSources = smc._sources.toArray().map(function (s) {
      return util$8.computeSourceURL(smc.sourceRoot, s, aSourceMapURL);
    });

    // Because we are modifying the entries (by converting string sources and
    // names to indices into the sources and names ArraySets), we have to make
    // a copy of the entry or else bad things happen. Shared mutable state
    // strikes again! See github issue #191.

    var generatedMappings = aSourceMap._mappings.toArray().slice();
    var destGeneratedMappings = smc.__generatedMappings = [];
    var destOriginalMappings = smc.__originalMappings = [];

    for (var i = 0, length = generatedMappings.length; i < length; i++) {
      var srcMapping = generatedMappings[i];
      var destMapping = new Mapping$1;
      destMapping.generatedLine = srcMapping.generatedLine;
      destMapping.generatedColumn = srcMapping.generatedColumn;

      if (srcMapping.source) {
        destMapping.source = sources.indexOf(srcMapping.source);
        destMapping.originalLine = srcMapping.originalLine;
        destMapping.originalColumn = srcMapping.originalColumn;

        if (srcMapping.name) {
          destMapping.name = names.indexOf(srcMapping.name);
        }

        destOriginalMappings.push(destMapping);
      }

      destGeneratedMappings.push(destMapping);
    }

    quickSort$2(smc.__originalMappings, util$8.compareByOriginalPositions);

    return smc;
  };

/**
 * The version of the source mapping spec that we are consuming.
 */
BasicSourceMapConsumer$1.prototype._version = 3;

/**
 * The list of original sources.
 */
Object.defineProperty(BasicSourceMapConsumer$1.prototype, 'sources', {
  get: function () {
    return this._absoluteSources.slice();
  }
});

/**
 * Provide the JIT with a nice shape / hidden class.
 */
function Mapping$1() {
  this.generatedLine = 0;
  this.generatedColumn = 0;
  this.source = null;
  this.originalLine = null;
  this.originalColumn = null;
  this.name = null;
}

/**
 * Parse the mappings in a string in to a data structure which we can easily
 * query (the ordered arrays in the `this.__generatedMappings` and
 * `this.__originalMappings` properties).
 */

const compareGenerated = util$8.compareByGeneratedPositionsDeflatedNoLine;
function sortGenerated(array, start) {
  let l = array.length;
  let n = array.length - start;
  if (n <= 1) {
    return;
  } else if (n == 2) {
    let a = array[start];
    let b = array[start + 1];
    if (compareGenerated(a, b) > 0) {
      array[start] = b;
      array[start + 1] = a;
    }
  } else if (n < 20) {
    for (let i = start; i < l; i++) {
      for (let j = i; j > start; j--) {
        let a = array[j - 1];
        let b = array[j];
        if (compareGenerated(a, b) <= 0) {
          break;
        }
        array[j - 1] = b;
        array[j] = a;
      }
    }
  } else {
    quickSort$2(array, compareGenerated, start);
  }
}
BasicSourceMapConsumer$1.prototype._parseMappings =
  function SourceMapConsumer_parseMappings(aStr, aSourceRoot) {
    var generatedLine = 1;
    var previousGeneratedColumn = 0;
    var previousOriginalLine = 0;
    var previousOriginalColumn = 0;
    var previousSource = 0;
    var previousName = 0;
    var length = aStr.length;
    var index = 0;
    var temp = {};
    var originalMappings = [];
    var generatedMappings = [];
    var mapping, segment, end, value;

    let subarrayStart = 0;
    while (index < length) {
      if (aStr.charAt(index) === ';') {
        generatedLine++;
        index++;
        previousGeneratedColumn = 0;

        sortGenerated(generatedMappings, subarrayStart);
        subarrayStart = generatedMappings.length;
      }
      else if (aStr.charAt(index) === ',') {
        index++;
      }
      else {
        mapping = new Mapping$1();
        mapping.generatedLine = generatedLine;

        for (end = index; end < length; end++) {
          if (this._charIsMappingSeparator(aStr, end)) {
            break;
          }
        }
        aStr.slice(index, end);

        segment = [];
        while (index < end) {
          base64VLQ$2.decode(aStr, index, temp);
          value = temp.value;
          index = temp.rest;
          segment.push(value);
        }

        if (segment.length === 2) {
          throw new Error('Found a source, but no line and column');
        }

        if (segment.length === 3) {
          throw new Error('Found a source and line, but no column');
        }

        // Generated column.
        mapping.generatedColumn = previousGeneratedColumn + segment[0];
        previousGeneratedColumn = mapping.generatedColumn;

        if (segment.length > 1) {
          // Original source.
          mapping.source = previousSource + segment[1];
          previousSource += segment[1];

          // Original line.
          mapping.originalLine = previousOriginalLine + segment[2];
          previousOriginalLine = mapping.originalLine;
          // Lines are stored 0-based
          mapping.originalLine += 1;

          // Original column.
          mapping.originalColumn = previousOriginalColumn + segment[3];
          previousOriginalColumn = mapping.originalColumn;

          if (segment.length > 4) {
            // Original name.
            mapping.name = previousName + segment[4];
            previousName += segment[4];
          }
        }

        generatedMappings.push(mapping);
        if (typeof mapping.originalLine === 'number') {
          let currentSource = mapping.source;
          while (originalMappings.length <= currentSource) {
            originalMappings.push(null);
          }
          if (originalMappings[currentSource] === null) {
            originalMappings[currentSource] = [];
          }
          originalMappings[currentSource].push(mapping);
        }
      }
    }

    sortGenerated(generatedMappings, subarrayStart);
    this.__generatedMappings = generatedMappings;

    for (var i = 0; i < originalMappings.length; i++) {
      if (originalMappings[i] != null) {
        quickSort$2(originalMappings[i], util$8.compareByOriginalPositionsNoSource);
      }
    }
    this.__originalMappings = [].concat(...originalMappings);
  };

/**
 * Find the mapping that best matches the hypothetical "needle" mapping that
 * we are searching for in the given "haystack" of mappings.
 */
BasicSourceMapConsumer$1.prototype._findMapping =
  function SourceMapConsumer_findMapping(aNeedle, aMappings, aLineName,
                                         aColumnName, aComparator, aBias) {
    // To return the position we are searching for, we must first find the
    // mapping for the given position and then return the opposite position it
    // points to. Because the mappings are sorted, we can use binary search to
    // find the best mapping.

    if (aNeedle[aLineName] <= 0) {
      throw new TypeError('Line must be greater than or equal to 1, got '
                          + aNeedle[aLineName]);
    }
    if (aNeedle[aColumnName] < 0) {
      throw new TypeError('Column must be greater than or equal to 0, got '
                          + aNeedle[aColumnName]);
    }

    return binarySearch$2.search(aNeedle, aMappings, aComparator, aBias);
  };

/**
 * Compute the last column for each generated mapping. The last column is
 * inclusive.
 */
BasicSourceMapConsumer$1.prototype.computeColumnSpans =
  function SourceMapConsumer_computeColumnSpans() {
    for (var index = 0; index < this._generatedMappings.length; ++index) {
      var mapping = this._generatedMappings[index];

      // Mappings do not contain a field for the last generated columnt. We
      // can come up with an optimistic estimate, however, by assuming that
      // mappings are contiguous (i.e. given two consecutive mappings, the
      // first mapping ends where the second one starts).
      if (index + 1 < this._generatedMappings.length) {
        var nextMapping = this._generatedMappings[index + 1];

        if (mapping.generatedLine === nextMapping.generatedLine) {
          mapping.lastGeneratedColumn = nextMapping.generatedColumn - 1;
          continue;
        }
      }

      // The last mapping for each line spans the entire line.
      mapping.lastGeneratedColumn = Infinity;
    }
  };

/**
 * Returns the original source, line, and column information for the generated
 * source's line and column positions provided. The only argument is an object
 * with the following properties:
 *
 *   - line: The line number in the generated source.  The line number
 *     is 1-based.
 *   - column: The column number in the generated source.  The column
 *     number is 0-based.
 *   - bias: Either 'SourceMapConsumer.GREATEST_LOWER_BOUND' or
 *     'SourceMapConsumer.LEAST_UPPER_BOUND'. Specifies whether to return the
 *     closest element that is smaller than or greater than the one we are
 *     searching for, respectively, if the exact element cannot be found.
 *     Defaults to 'SourceMapConsumer.GREATEST_LOWER_BOUND'.
 *
 * and an object is returned with the following properties:
 *
 *   - source: The original source file, or null.
 *   - line: The line number in the original source, or null.  The
 *     line number is 1-based.
 *   - column: The column number in the original source, or null.  The
 *     column number is 0-based.
 *   - name: The original identifier, or null.
 */
BasicSourceMapConsumer$1.prototype.originalPositionFor =
  function SourceMapConsumer_originalPositionFor(aArgs) {
    var needle = {
      generatedLine: util$8.getArg(aArgs, 'line'),
      generatedColumn: util$8.getArg(aArgs, 'column')
    };

    var index = this._findMapping(
      needle,
      this._generatedMappings,
      "generatedLine",
      "generatedColumn",
      util$8.compareByGeneratedPositionsDeflated,
      util$8.getArg(aArgs, 'bias', SourceMapConsumer$6.GREATEST_LOWER_BOUND)
    );

    if (index >= 0) {
      var mapping = this._generatedMappings[index];

      if (mapping.generatedLine === needle.generatedLine) {
        var source = util$8.getArg(mapping, 'source', null);
        if (source !== null) {
          source = this._sources.at(source);
          source = util$8.computeSourceURL(this.sourceRoot, source, this._sourceMapURL);
        }
        var name = util$8.getArg(mapping, 'name', null);
        if (name !== null) {
          name = this._names.at(name);
        }
        return {
          source: source,
          line: util$8.getArg(mapping, 'originalLine', null),
          column: util$8.getArg(mapping, 'originalColumn', null),
          name: name
        };
      }
    }

    return {
      source: null,
      line: null,
      column: null,
      name: null
    };
  };

/**
 * Return true if we have the source content for every source in the source
 * map, false otherwise.
 */
BasicSourceMapConsumer$1.prototype.hasContentsOfAllSources =
  function BasicSourceMapConsumer_hasContentsOfAllSources() {
    if (!this.sourcesContent) {
      return false;
    }
    return this.sourcesContent.length >= this._sources.size() &&
      !this.sourcesContent.some(function (sc) { return sc == null; });
  };

/**
 * Returns the original source content. The only argument is the url of the
 * original source file. Returns null if no original source content is
 * available.
 */
BasicSourceMapConsumer$1.prototype.sourceContentFor =
  function SourceMapConsumer_sourceContentFor(aSource, nullOnMissing) {
    if (!this.sourcesContent) {
      return null;
    }

    var index = this._findSourceIndex(aSource);
    if (index >= 0) {
      return this.sourcesContent[index];
    }

    var relativeSource = aSource;
    if (this.sourceRoot != null) {
      relativeSource = util$8.relative(this.sourceRoot, relativeSource);
    }

    var url;
    if (this.sourceRoot != null
        && (url = util$8.urlParse(this.sourceRoot))) {
      // XXX: file:// URIs and absolute paths lead to unexpected behavior for
      // many users. We can help them out when they expect file:// URIs to
      // behave like it would if they were running a local HTTP server. See
      // https://bugzilla.mozilla.org/show_bug.cgi?id=885597.
      var fileUriAbsPath = relativeSource.replace(/^file:\/\//, "");
      if (url.scheme == "file"
          && this._sources.has(fileUriAbsPath)) {
        return this.sourcesContent[this._sources.indexOf(fileUriAbsPath)]
      }

      if ((!url.path || url.path == "/")
          && this._sources.has("/" + relativeSource)) {
        return this.sourcesContent[this._sources.indexOf("/" + relativeSource)];
      }
    }

    // This function is used recursively from
    // IndexedSourceMapConsumer.prototype.sourceContentFor. In that case, we
    // don't want to throw if we can't find the source - we just want to
    // return null, so we provide a flag to exit gracefully.
    if (nullOnMissing) {
      return null;
    }
    else {
      throw new Error('"' + relativeSource + '" is not in the SourceMap.');
    }
  };

/**
 * Returns the generated line and column information for the original source,
 * line, and column positions provided. The only argument is an object with
 * the following properties:
 *
 *   - source: The filename of the original source.
 *   - line: The line number in the original source.  The line number
 *     is 1-based.
 *   - column: The column number in the original source.  The column
 *     number is 0-based.
 *   - bias: Either 'SourceMapConsumer.GREATEST_LOWER_BOUND' or
 *     'SourceMapConsumer.LEAST_UPPER_BOUND'. Specifies whether to return the
 *     closest element that is smaller than or greater than the one we are
 *     searching for, respectively, if the exact element cannot be found.
 *     Defaults to 'SourceMapConsumer.GREATEST_LOWER_BOUND'.
 *
 * and an object is returned with the following properties:
 *
 *   - line: The line number in the generated source, or null.  The
 *     line number is 1-based.
 *   - column: The column number in the generated source, or null.
 *     The column number is 0-based.
 */
BasicSourceMapConsumer$1.prototype.generatedPositionFor =
  function SourceMapConsumer_generatedPositionFor(aArgs) {
    var source = util$8.getArg(aArgs, 'source');
    source = this._findSourceIndex(source);
    if (source < 0) {
      return {
        line: null,
        column: null,
        lastColumn: null
      };
    }

    var needle = {
      source: source,
      originalLine: util$8.getArg(aArgs, 'line'),
      originalColumn: util$8.getArg(aArgs, 'column')
    };

    var index = this._findMapping(
      needle,
      this._originalMappings,
      "originalLine",
      "originalColumn",
      util$8.compareByOriginalPositions,
      util$8.getArg(aArgs, 'bias', SourceMapConsumer$6.GREATEST_LOWER_BOUND)
    );

    if (index >= 0) {
      var mapping = this._originalMappings[index];

      if (mapping.source === needle.source) {
        return {
          line: util$8.getArg(mapping, 'generatedLine', null),
          column: util$8.getArg(mapping, 'generatedColumn', null),
          lastColumn: util$8.getArg(mapping, 'lastGeneratedColumn', null)
        };
      }
    }

    return {
      line: null,
      column: null,
      lastColumn: null
    };
  };

sourceMapConsumer$1.BasicSourceMapConsumer = BasicSourceMapConsumer$1;

/**
 * An IndexedSourceMapConsumer instance represents a parsed source map which
 * we can query for information. It differs from BasicSourceMapConsumer in
 * that it takes "indexed" source maps (i.e. ones with a "sections" field) as
 * input.
 *
 * The first parameter is a raw source map (either as a JSON string, or already
 * parsed to an object). According to the spec for indexed source maps, they
 * have the following attributes:
 *
 *   - version: Which version of the source map spec this map is following.
 *   - file: Optional. The generated file this source map is associated with.
 *   - sections: A list of section definitions.
 *
 * Each value under the "sections" field has two fields:
 *   - offset: The offset into the original specified at which this section
 *       begins to apply, defined as an object with a "line" and "column"
 *       field.
 *   - map: A source map definition. This source map could also be indexed,
 *       but doesn't have to be.
 *
 * Instead of the "map" field, it's also possible to have a "url" field
 * specifying a URL to retrieve a source map from, but that's currently
 * unsupported.
 *
 * Here's an example source map, taken from the source map spec[0], but
 * modified to omit a section which uses the "url" field.
 *
 *  {
 *    version : 3,
 *    file: "app.js",
 *    sections: [{
 *      offset: {line:100, column:10},
 *      map: {
 *        version : 3,
 *        file: "section.js",
 *        sources: ["foo.js", "bar.js"],
 *        names: ["src", "maps", "are", "fun"],
 *        mappings: "AAAA,E;;ABCDE;"
 *      }
 *    }],
 *  }
 *
 * The second parameter, if given, is a string whose value is the URL
 * at which the source map was found.  This URL is used to compute the
 * sources array.
 *
 * [0]: https://docs.google.com/document/d/1U1RGAehQwRypUTovF1KRlpiOFze0b-_2gc6fAH0KY0k/edit#heading=h.535es3xeprgt
 */
function IndexedSourceMapConsumer$1(aSourceMap, aSourceMapURL) {
  var sourceMap = aSourceMap;
  if (typeof aSourceMap === 'string') {
    sourceMap = util$8.parseSourceMapInput(aSourceMap);
  }

  var version = util$8.getArg(sourceMap, 'version');
  var sections = util$8.getArg(sourceMap, 'sections');

  if (version != this._version) {
    throw new Error('Unsupported version: ' + version);
  }

  this._sources = new ArraySet$3();
  this._names = new ArraySet$3();

  var lastOffset = {
    line: -1,
    column: 0
  };
  this._sections = sections.map(function (s) {
    if (s.url) {
      // The url field will require support for asynchronicity.
      // See https://github.com/mozilla/source-map/issues/16
      throw new Error('Support for url field in sections not implemented.');
    }
    var offset = util$8.getArg(s, 'offset');
    var offsetLine = util$8.getArg(offset, 'line');
    var offsetColumn = util$8.getArg(offset, 'column');

    if (offsetLine < lastOffset.line ||
        (offsetLine === lastOffset.line && offsetColumn < lastOffset.column)) {
      throw new Error('Section offsets must be ordered and non-overlapping.');
    }
    lastOffset = offset;

    return {
      generatedOffset: {
        // The offset fields are 0-based, but we use 1-based indices when
        // encoding/decoding from VLQ.
        generatedLine: offsetLine + 1,
        generatedColumn: offsetColumn + 1
      },
      consumer: new SourceMapConsumer$6(util$8.getArg(s, 'map'), aSourceMapURL)
    }
  });
}

IndexedSourceMapConsumer$1.prototype = Object.create(SourceMapConsumer$6.prototype);
IndexedSourceMapConsumer$1.prototype.constructor = SourceMapConsumer$6;

/**
 * The version of the source mapping spec that we are consuming.
 */
IndexedSourceMapConsumer$1.prototype._version = 3;

/**
 * The list of original sources.
 */
Object.defineProperty(IndexedSourceMapConsumer$1.prototype, 'sources', {
  get: function () {
    var sources = [];
    for (var i = 0; i < this._sections.length; i++) {
      for (var j = 0; j < this._sections[i].consumer.sources.length; j++) {
        sources.push(this._sections[i].consumer.sources[j]);
      }
    }
    return sources;
  }
});

/**
 * Returns the original source, line, and column information for the generated
 * source's line and column positions provided. The only argument is an object
 * with the following properties:
 *
 *   - line: The line number in the generated source.  The line number
 *     is 1-based.
 *   - column: The column number in the generated source.  The column
 *     number is 0-based.
 *
 * and an object is returned with the following properties:
 *
 *   - source: The original source file, or null.
 *   - line: The line number in the original source, or null.  The
 *     line number is 1-based.
 *   - column: The column number in the original source, or null.  The
 *     column number is 0-based.
 *   - name: The original identifier, or null.
 */
IndexedSourceMapConsumer$1.prototype.originalPositionFor =
  function IndexedSourceMapConsumer_originalPositionFor(aArgs) {
    var needle = {
      generatedLine: util$8.getArg(aArgs, 'line'),
      generatedColumn: util$8.getArg(aArgs, 'column')
    };

    // Find the section containing the generated position we're trying to map
    // to an original position.
    var sectionIndex = binarySearch$2.search(needle, this._sections,
      function(needle, section) {
        var cmp = needle.generatedLine - section.generatedOffset.generatedLine;
        if (cmp) {
          return cmp;
        }

        return (needle.generatedColumn -
                section.generatedOffset.generatedColumn);
      });
    var section = this._sections[sectionIndex];

    if (!section) {
      return {
        source: null,
        line: null,
        column: null,
        name: null
      };
    }

    return section.consumer.originalPositionFor({
      line: needle.generatedLine -
        (section.generatedOffset.generatedLine - 1),
      column: needle.generatedColumn -
        (section.generatedOffset.generatedLine === needle.generatedLine
         ? section.generatedOffset.generatedColumn - 1
         : 0),
      bias: aArgs.bias
    });
  };

/**
 * Return true if we have the source content for every source in the source
 * map, false otherwise.
 */
IndexedSourceMapConsumer$1.prototype.hasContentsOfAllSources =
  function IndexedSourceMapConsumer_hasContentsOfAllSources() {
    return this._sections.every(function (s) {
      return s.consumer.hasContentsOfAllSources();
    });
  };

/**
 * Returns the original source content. The only argument is the url of the
 * original source file. Returns null if no original source content is
 * available.
 */
IndexedSourceMapConsumer$1.prototype.sourceContentFor =
  function IndexedSourceMapConsumer_sourceContentFor(aSource, nullOnMissing) {
    for (var i = 0; i < this._sections.length; i++) {
      var section = this._sections[i];

      var content = section.consumer.sourceContentFor(aSource, true);
      if (content) {
        return content;
      }
    }
    if (nullOnMissing) {
      return null;
    }
    else {
      throw new Error('"' + aSource + '" is not in the SourceMap.');
    }
  };

/**
 * Returns the generated line and column information for the original source,
 * line, and column positions provided. The only argument is an object with
 * the following properties:
 *
 *   - source: The filename of the original source.
 *   - line: The line number in the original source.  The line number
 *     is 1-based.
 *   - column: The column number in the original source.  The column
 *     number is 0-based.
 *
 * and an object is returned with the following properties:
 *
 *   - line: The line number in the generated source, or null.  The
 *     line number is 1-based. 
 *   - column: The column number in the generated source, or null.
 *     The column number is 0-based.
 */
IndexedSourceMapConsumer$1.prototype.generatedPositionFor =
  function IndexedSourceMapConsumer_generatedPositionFor(aArgs) {
    for (var i = 0; i < this._sections.length; i++) {
      var section = this._sections[i];

      // Only consider this section if the requested source is in the list of
      // sources of the consumer.
      if (section.consumer._findSourceIndex(util$8.getArg(aArgs, 'source')) === -1) {
        continue;
      }
      var generatedPosition = section.consumer.generatedPositionFor(aArgs);
      if (generatedPosition) {
        var ret = {
          line: generatedPosition.line +
            (section.generatedOffset.generatedLine - 1),
          column: generatedPosition.column +
            (section.generatedOffset.generatedLine === generatedPosition.line
             ? section.generatedOffset.generatedColumn - 1
             : 0)
        };
        return ret;
      }
    }

    return {
      line: null,
      column: null
    };
  };

/**
 * Parse the mappings in a string in to a data structure which we can easily
 * query (the ordered arrays in the `this.__generatedMappings` and
 * `this.__originalMappings` properties).
 */
IndexedSourceMapConsumer$1.prototype._parseMappings =
  function IndexedSourceMapConsumer_parseMappings(aStr, aSourceRoot) {
    this.__generatedMappings = [];
    this.__originalMappings = [];
    for (var i = 0; i < this._sections.length; i++) {
      var section = this._sections[i];
      var sectionMappings = section.consumer._generatedMappings;
      for (var j = 0; j < sectionMappings.length; j++) {
        var mapping = sectionMappings[j];

        var source = section.consumer._sources.at(mapping.source);
        source = util$8.computeSourceURL(section.consumer.sourceRoot, source, this._sourceMapURL);
        this._sources.add(source);
        source = this._sources.indexOf(source);

        var name = null;
        if (mapping.name) {
          name = section.consumer._names.at(mapping.name);
          this._names.add(name);
          name = this._names.indexOf(name);
        }

        // The mappings coming from the consumer for the section have
        // generated positions relative to the start of the section, so we
        // need to offset them to be relative to the start of the concatenated
        // generated file.
        var adjustedMapping = {
          source: source,
          generatedLine: mapping.generatedLine +
            (section.generatedOffset.generatedLine - 1),
          generatedColumn: mapping.generatedColumn +
            (section.generatedOffset.generatedLine === mapping.generatedLine
            ? section.generatedOffset.generatedColumn - 1
            : 0),
          originalLine: mapping.originalLine,
          originalColumn: mapping.originalColumn,
          name: name
        };

        this.__generatedMappings.push(adjustedMapping);
        if (typeof adjustedMapping.originalLine === 'number') {
          this.__originalMappings.push(adjustedMapping);
        }
      }
    }

    quickSort$2(this.__generatedMappings, util$8.compareByGeneratedPositionsDeflated);
    quickSort$2(this.__originalMappings, util$8.compareByOriginalPositions);
  };

sourceMapConsumer$1.IndexedSourceMapConsumer = IndexedSourceMapConsumer$1;

var sourceNode$1 = {};

/* -*- Mode: js; js-indent-level: 2; -*- */

/*
 * Copyright 2011 Mozilla Foundation and contributors
 * Licensed under the New BSD license. See LICENSE or:
 * http://opensource.org/licenses/BSD-3-Clause
 */

var SourceMapGenerator$7 = sourceMapGenerator$1.SourceMapGenerator;
var util$7 = util$c;

// Matches a Windows-style `\r\n` newline or a `\n` newline used by all other
// operating systems these days (capturing the result).
var REGEX_NEWLINE$1 = /(\r?\n)/;

// Newline character code for charCodeAt() comparisons
var NEWLINE_CODE$1 = 10;

// Private symbol for identifying `SourceNode`s when multiple versions of
// the source-map library are loaded. This MUST NOT CHANGE across
// versions!
var isSourceNode$1 = "$$$isSourceNode$$$";

/**
 * SourceNodes provide a way to abstract over interpolating/concatenating
 * snippets of generated JavaScript source code while maintaining the line and
 * column information associated with the original source code.
 *
 * @param aLine The original line number.
 * @param aColumn The original column number.
 * @param aSource The original source's filename.
 * @param aChunks Optional. An array of strings which are snippets of
 *        generated JS, or other SourceNodes.
 * @param aName The original identifier.
 */
function SourceNode$1(aLine, aColumn, aSource, aChunks, aName) {
  this.children = [];
  this.sourceContents = {};
  this.line = aLine == null ? null : aLine;
  this.column = aColumn == null ? null : aColumn;
  this.source = aSource == null ? null : aSource;
  this.name = aName == null ? null : aName;
  this[isSourceNode$1] = true;
  if (aChunks != null) this.add(aChunks);
}

/**
 * Creates a SourceNode from generated code and a SourceMapConsumer.
 *
 * @param aGeneratedCode The generated code
 * @param aSourceMapConsumer The SourceMap for the generated code
 * @param aRelativePath Optional. The path that relative sources in the
 *        SourceMapConsumer should be relative to.
 */
SourceNode$1.fromStringWithSourceMap =
  function SourceNode_fromStringWithSourceMap(aGeneratedCode, aSourceMapConsumer, aRelativePath) {
    // The SourceNode we want to fill with the generated code
    // and the SourceMap
    var node = new SourceNode$1();

    // All even indices of this array are one line of the generated code,
    // while all odd indices are the newlines between two adjacent lines
    // (since `REGEX_NEWLINE` captures its match).
    // Processed fragments are accessed by calling `shiftNextLine`.
    var remainingLines = aGeneratedCode.split(REGEX_NEWLINE$1);
    var remainingLinesIndex = 0;
    var shiftNextLine = function() {
      var lineContents = getNextLine();
      // The last line of a file might not have a newline.
      var newLine = getNextLine() || "";
      return lineContents + newLine;

      function getNextLine() {
        return remainingLinesIndex < remainingLines.length ?
            remainingLines[remainingLinesIndex++] : undefined;
      }
    };

    // We need to remember the position of "remainingLines"
    var lastGeneratedLine = 1, lastGeneratedColumn = 0;

    // The generate SourceNodes we need a code range.
    // To extract it current and last mapping is used.
    // Here we store the last mapping.
    var lastMapping = null;

    aSourceMapConsumer.eachMapping(function (mapping) {
      if (lastMapping !== null) {
        // We add the code from "lastMapping" to "mapping":
        // First check if there is a new line in between.
        if (lastGeneratedLine < mapping.generatedLine) {
          // Associate first line with "lastMapping"
          addMappingWithCode(lastMapping, shiftNextLine());
          lastGeneratedLine++;
          lastGeneratedColumn = 0;
          // The remaining code is added without mapping
        } else {
          // There is no new line in between.
          // Associate the code between "lastGeneratedColumn" and
          // "mapping.generatedColumn" with "lastMapping"
          var nextLine = remainingLines[remainingLinesIndex] || '';
          var code = nextLine.substr(0, mapping.generatedColumn -
                                        lastGeneratedColumn);
          remainingLines[remainingLinesIndex] = nextLine.substr(mapping.generatedColumn -
                                              lastGeneratedColumn);
          lastGeneratedColumn = mapping.generatedColumn;
          addMappingWithCode(lastMapping, code);
          // No more remaining code, continue
          lastMapping = mapping;
          return;
        }
      }
      // We add the generated code until the first mapping
      // to the SourceNode without any mapping.
      // Each line is added as separate string.
      while (lastGeneratedLine < mapping.generatedLine) {
        node.add(shiftNextLine());
        lastGeneratedLine++;
      }
      if (lastGeneratedColumn < mapping.generatedColumn) {
        var nextLine = remainingLines[remainingLinesIndex] || '';
        node.add(nextLine.substr(0, mapping.generatedColumn));
        remainingLines[remainingLinesIndex] = nextLine.substr(mapping.generatedColumn);
        lastGeneratedColumn = mapping.generatedColumn;
      }
      lastMapping = mapping;
    }, this);
    // We have processed all mappings.
    if (remainingLinesIndex < remainingLines.length) {
      if (lastMapping) {
        // Associate the remaining code in the current line with "lastMapping"
        addMappingWithCode(lastMapping, shiftNextLine());
      }
      // and add the remaining lines without any mapping
      node.add(remainingLines.splice(remainingLinesIndex).join(""));
    }

    // Copy sourcesContent into SourceNode
    aSourceMapConsumer.sources.forEach(function (sourceFile) {
      var content = aSourceMapConsumer.sourceContentFor(sourceFile);
      if (content != null) {
        if (aRelativePath != null) {
          sourceFile = util$7.join(aRelativePath, sourceFile);
        }
        node.setSourceContent(sourceFile, content);
      }
    });

    return node;

    function addMappingWithCode(mapping, code) {
      if (mapping === null || mapping.source === undefined) {
        node.add(code);
      } else {
        var source = aRelativePath
          ? util$7.join(aRelativePath, mapping.source)
          : mapping.source;
        node.add(new SourceNode$1(mapping.originalLine,
                                mapping.originalColumn,
                                source,
                                code,
                                mapping.name));
      }
    }
  };

/**
 * Add a chunk of generated JS to this source node.
 *
 * @param aChunk A string snippet of generated JS code, another instance of
 *        SourceNode, or an array where each member is one of those things.
 */
SourceNode$1.prototype.add = function SourceNode_add(aChunk) {
  if (Array.isArray(aChunk)) {
    aChunk.forEach(function (chunk) {
      this.add(chunk);
    }, this);
  }
  else if (aChunk[isSourceNode$1] || typeof aChunk === "string") {
    if (aChunk) {
      this.children.push(aChunk);
    }
  }
  else {
    throw new TypeError(
      "Expected a SourceNode, string, or an array of SourceNodes and strings. Got " + aChunk
    );
  }
  return this;
};

/**
 * Add a chunk of generated JS to the beginning of this source node.
 *
 * @param aChunk A string snippet of generated JS code, another instance of
 *        SourceNode, or an array where each member is one of those things.
 */
SourceNode$1.prototype.prepend = function SourceNode_prepend(aChunk) {
  if (Array.isArray(aChunk)) {
    for (var i = aChunk.length-1; i >= 0; i--) {
      this.prepend(aChunk[i]);
    }
  }
  else if (aChunk[isSourceNode$1] || typeof aChunk === "string") {
    this.children.unshift(aChunk);
  }
  else {
    throw new TypeError(
      "Expected a SourceNode, string, or an array of SourceNodes and strings. Got " + aChunk
    );
  }
  return this;
};

/**
 * Walk over the tree of JS snippets in this node and its children. The
 * walking function is called once for each snippet of JS and is passed that
 * snippet and the its original associated source's line/column location.
 *
 * @param aFn The traversal function.
 */
SourceNode$1.prototype.walk = function SourceNode_walk(aFn) {
  var chunk;
  for (var i = 0, len = this.children.length; i < len; i++) {
    chunk = this.children[i];
    if (chunk[isSourceNode$1]) {
      chunk.walk(aFn);
    }
    else {
      if (chunk !== '') {
        aFn(chunk, { source: this.source,
                     line: this.line,
                     column: this.column,
                     name: this.name });
      }
    }
  }
};

/**
 * Like `String.prototype.join` except for SourceNodes. Inserts `aStr` between
 * each of `this.children`.
 *
 * @param aSep The separator.
 */
SourceNode$1.prototype.join = function SourceNode_join(aSep) {
  var newChildren;
  var i;
  var len = this.children.length;
  if (len > 0) {
    newChildren = [];
    for (i = 0; i < len-1; i++) {
      newChildren.push(this.children[i]);
      newChildren.push(aSep);
    }
    newChildren.push(this.children[i]);
    this.children = newChildren;
  }
  return this;
};

/**
 * Call String.prototype.replace on the very right-most source snippet. Useful
 * for trimming whitespace from the end of a source node, etc.
 *
 * @param aPattern The pattern to replace.
 * @param aReplacement The thing to replace the pattern with.
 */
SourceNode$1.prototype.replaceRight = function SourceNode_replaceRight(aPattern, aReplacement) {
  var lastChild = this.children[this.children.length - 1];
  if (lastChild[isSourceNode$1]) {
    lastChild.replaceRight(aPattern, aReplacement);
  }
  else if (typeof lastChild === 'string') {
    this.children[this.children.length - 1] = lastChild.replace(aPattern, aReplacement);
  }
  else {
    this.children.push(''.replace(aPattern, aReplacement));
  }
  return this;
};

/**
 * Set the source content for a source file. This will be added to the SourceMapGenerator
 * in the sourcesContent field.
 *
 * @param aSourceFile The filename of the source file
 * @param aSourceContent The content of the source file
 */
SourceNode$1.prototype.setSourceContent =
  function SourceNode_setSourceContent(aSourceFile, aSourceContent) {
    this.sourceContents[util$7.toSetString(aSourceFile)] = aSourceContent;
  };

/**
 * Walk over the tree of SourceNodes. The walking function is called for each
 * source file content and is passed the filename and source content.
 *
 * @param aFn The traversal function.
 */
SourceNode$1.prototype.walkSourceContents =
  function SourceNode_walkSourceContents(aFn) {
    for (var i = 0, len = this.children.length; i < len; i++) {
      if (this.children[i][isSourceNode$1]) {
        this.children[i].walkSourceContents(aFn);
      }
    }

    var sources = Object.keys(this.sourceContents);
    for (var i = 0, len = sources.length; i < len; i++) {
      aFn(util$7.fromSetString(sources[i]), this.sourceContents[sources[i]]);
    }
  };

/**
 * Return the string representation of this source node. Walks over the tree
 * and concatenates all the various snippets together to one string.
 */
SourceNode$1.prototype.toString = function SourceNode_toString() {
  var str = "";
  this.walk(function (chunk) {
    str += chunk;
  });
  return str;
};

/**
 * Returns the string representation of this source node along with a source
 * map.
 */
SourceNode$1.prototype.toStringWithSourceMap = function SourceNode_toStringWithSourceMap(aArgs) {
  var generated = {
    code: "",
    line: 1,
    column: 0
  };
  var map = new SourceMapGenerator$7(aArgs);
  var sourceMappingActive = false;
  var lastOriginalSource = null;
  var lastOriginalLine = null;
  var lastOriginalColumn = null;
  var lastOriginalName = null;
  this.walk(function (chunk, original) {
    generated.code += chunk;
    if (original.source !== null
        && original.line !== null
        && original.column !== null) {
      if(lastOriginalSource !== original.source
         || lastOriginalLine !== original.line
         || lastOriginalColumn !== original.column
         || lastOriginalName !== original.name) {
        map.addMapping({
          source: original.source,
          original: {
            line: original.line,
            column: original.column
          },
          generated: {
            line: generated.line,
            column: generated.column
          },
          name: original.name
        });
      }
      lastOriginalSource = original.source;
      lastOriginalLine = original.line;
      lastOriginalColumn = original.column;
      lastOriginalName = original.name;
      sourceMappingActive = true;
    } else if (sourceMappingActive) {
      map.addMapping({
        generated: {
          line: generated.line,
          column: generated.column
        }
      });
      lastOriginalSource = null;
      sourceMappingActive = false;
    }
    for (var idx = 0, length = chunk.length; idx < length; idx++) {
      if (chunk.charCodeAt(idx) === NEWLINE_CODE$1) {
        generated.line++;
        generated.column = 0;
        // Mappings end at eol
        if (idx + 1 === length) {
          lastOriginalSource = null;
          sourceMappingActive = false;
        } else if (sourceMappingActive) {
          map.addMapping({
            source: original.source,
            original: {
              line: original.line,
              column: original.column
            },
            generated: {
              line: generated.line,
              column: generated.column
            },
            name: original.name
          });
        }
      } else {
        generated.column++;
      }
    }
  });
  this.walkSourceContents(function (sourceFile, sourceContent) {
    map.setSourceContent(sourceFile, sourceContent);
  });

  return { code: generated.code, map: map };
};

sourceNode$1.SourceNode = SourceNode$1;

/*
 * Copyright 2009-2011 Mozilla Foundation and contributors
 * Licensed under the New BSD license. See LICENSE.txt or:
 * http://opensource.org/licenses/BSD-3-Clause
 */

var SourceMapGenerator$6 = sourceMap$2.SourceMapGenerator = sourceMapGenerator$1.SourceMapGenerator;
var SourceMapConsumer$5 = sourceMap$2.SourceMapConsumer = sourceMapConsumer$1.SourceMapConsumer;
sourceMap$2.SourceNode = sourceNode$1.SourceNode;

const PURE_ANNOTATION = `/*#__PURE__*/`;
const aliasHelper = (s) => `${helperNameMap[s]}: _${helperNameMap[s]}`;
function createCodegenContext(ast, {
  mode = "function",
  prefixIdentifiers = mode === "module",
  sourceMap = false,
  filename = `template.vue.html`,
  scopeId = null,
  optimizeImports = false,
  runtimeGlobalName = `Vue`,
  runtimeModuleName = `vue`,
  ssrRuntimeModuleName = "vue/server-renderer",
  ssr = false,
  isTS = false,
  inSSR = false
}) {
  const context = {
    mode,
    prefixIdentifiers,
    sourceMap,
    filename,
    scopeId,
    optimizeImports,
    runtimeGlobalName,
    runtimeModuleName,
    ssrRuntimeModuleName,
    ssr,
    isTS,
    inSSR,
    source: ast.loc.source,
    code: ``,
    column: 1,
    line: 1,
    offset: 0,
    indentLevel: 0,
    pure: false,
    map: void 0,
    helper(key) {
      return `_${helperNameMap[key]}`;
    },
    push(code, node) {
      context.code += code;
      if (context.map) {
        if (node) {
          let name;
          if (node.type === 4 && !node.isStatic) {
            const content = node.content.replace(/^_ctx\./, "");
            if (content !== node.content && isSimpleIdentifier(content)) {
              name = content;
            }
          }
          addMapping(node.loc.start, name);
        }
        advancePositionWithMutation(context, code);
        if (node && node.loc !== locStub) {
          addMapping(node.loc.end);
        }
      }
    },
    indent() {
      newline(++context.indentLevel);
    },
    deindent(withoutNewLine = false) {
      if (withoutNewLine) {
        --context.indentLevel;
      } else {
        newline(--context.indentLevel);
      }
    },
    newline() {
      newline(context.indentLevel);
    }
  };
  function newline(n) {
    context.push("\n" + `  `.repeat(n));
  }
  function addMapping(loc, name) {
    context.map.addMapping({
      name,
      source: context.filename,
      original: {
        line: loc.line,
        column: loc.column - 1
        // source-map column is 0 based
      },
      generated: {
        line: context.line,
        column: context.column - 1
      }
    });
  }
  if (sourceMap) {
    context.map = new SourceMapGenerator$6();
    context.map.setSourceContent(filename, context.source);
  }
  return context;
}
function generate(ast, options = {}) {
  const context = createCodegenContext(ast, options);
  if (options.onContextCreated)
    options.onContextCreated(context);
  const {
    mode,
    push,
    prefixIdentifiers,
    indent,
    deindent,
    newline,
    scopeId,
    ssr
  } = context;
  const helpers = Array.from(ast.helpers);
  const hasHelpers = helpers.length > 0;
  const useWithBlock = !prefixIdentifiers && mode !== "module";
  const genScopeId = scopeId != null && mode === "module";
  const isSetupInlined = !!options.inline;
  const preambleContext = isSetupInlined ? createCodegenContext(ast, options) : context;
  if (mode === "module") {
    genModulePreamble(ast, preambleContext, genScopeId, isSetupInlined);
  } else {
    genFunctionPreamble(ast, preambleContext);
  }
  const functionName = ssr ? `ssrRender` : `render`;
  const args = ssr ? ["_ctx", "_push", "_parent", "_attrs"] : ["_ctx", "_cache"];
  if (options.bindingMetadata && !options.inline) {
    args.push("$props", "$setup", "$data", "$options");
  }
  const signature = options.isTS ? args.map((arg) => `${arg}: any`).join(",") : args.join(", ");
  if (isSetupInlined) {
    push(`(${signature}) => {`);
  } else {
    push(`function ${functionName}(${signature}) {`);
  }
  indent();
  if (useWithBlock) {
    push(`with (_ctx) {`);
    indent();
    if (hasHelpers) {
      push(`const { ${helpers.map(aliasHelper).join(", ")} } = _Vue`);
      push(`
`);
      newline();
    }
  }
  if (ast.components.length) {
    genAssets(ast.components, "component", context);
    if (ast.directives.length || ast.temps > 0) {
      newline();
    }
  }
  if (ast.directives.length) {
    genAssets(ast.directives, "directive", context);
    if (ast.temps > 0) {
      newline();
    }
  }
  if (ast.temps > 0) {
    push(`let `);
    for (let i = 0; i < ast.temps; i++) {
      push(`${i > 0 ? `, ` : ``}_temp${i}`);
    }
  }
  if (ast.components.length || ast.directives.length || ast.temps) {
    push(`
`);
    newline();
  }
  if (!ssr) {
    push(`return `);
  }
  if (ast.codegenNode) {
    genNode(ast.codegenNode, context);
  } else {
    push(`null`);
  }
  if (useWithBlock) {
    deindent();
    push(`}`);
  }
  deindent();
  push(`}`);
  return {
    ast,
    code: context.code,
    preamble: isSetupInlined ? preambleContext.code : ``,
    // SourceMapGenerator does have toJSON() method but it's not in the types
    map: context.map ? context.map.toJSON() : void 0
  };
}
function genFunctionPreamble(ast, context) {
  const {
    ssr,
    prefixIdentifiers,
    push,
    newline,
    runtimeModuleName,
    runtimeGlobalName,
    ssrRuntimeModuleName
  } = context;
  const VueBinding = ssr ? `require(${JSON.stringify(runtimeModuleName)})` : runtimeGlobalName;
  const helpers = Array.from(ast.helpers);
  if (helpers.length > 0) {
    if (prefixIdentifiers) {
      push(`const { ${helpers.map(aliasHelper).join(", ")} } = ${VueBinding}
`);
    } else {
      push(`const _Vue = ${VueBinding}
`);
      if (ast.hoists.length) {
        const staticHelpers = [
          CREATE_VNODE,
          CREATE_ELEMENT_VNODE,
          CREATE_COMMENT,
          CREATE_TEXT,
          CREATE_STATIC
        ].filter((helper) => helpers.includes(helper)).map(aliasHelper).join(", ");
        push(`const { ${staticHelpers} } = _Vue
`);
      }
    }
  }
  if (ast.ssrHelpers && ast.ssrHelpers.length) {
    push(
      `const { ${ast.ssrHelpers.map(aliasHelper).join(", ")} } = require("${ssrRuntimeModuleName}")
`
    );
  }
  genHoists(ast.hoists, context);
  newline();
  push(`return `);
}
function genModulePreamble(ast, context, genScopeId, inline) {
  const {
    push,
    newline,
    optimizeImports,
    runtimeModuleName,
    ssrRuntimeModuleName
  } = context;
  if (genScopeId && ast.hoists.length) {
    ast.helpers.add(PUSH_SCOPE_ID);
    ast.helpers.add(POP_SCOPE_ID);
  }
  if (ast.helpers.size) {
    const helpers = Array.from(ast.helpers);
    if (optimizeImports) {
      push(
        `import { ${helpers.map((s) => helperNameMap[s]).join(", ")} } from ${JSON.stringify(runtimeModuleName)}
`
      );
      push(
        `
// Binding optimization for webpack code-split
const ${helpers.map((s) => `_${helperNameMap[s]} = ${helperNameMap[s]}`).join(", ")}
`
      );
    } else {
      push(
        `import { ${helpers.map((s) => `${helperNameMap[s]} as _${helperNameMap[s]}`).join(", ")} } from ${JSON.stringify(runtimeModuleName)}
`
      );
    }
  }
  if (ast.ssrHelpers && ast.ssrHelpers.length) {
    push(
      `import { ${ast.ssrHelpers.map((s) => `${helperNameMap[s]} as _${helperNameMap[s]}`).join(", ")} } from "${ssrRuntimeModuleName}"
`
    );
  }
  if (ast.imports.length) {
    genImports(ast.imports, context);
    newline();
  }
  genHoists(ast.hoists, context);
  newline();
  if (!inline) {
    push(`export `);
  }
}
function genAssets(assets, type, { helper, push, newline, isTS }) {
  const resolver = helper(
    type === "component" ? RESOLVE_COMPONENT : RESOLVE_DIRECTIVE
  );
  for (let i = 0; i < assets.length; i++) {
    let id = assets[i];
    const maybeSelfReference = id.endsWith("__self");
    if (maybeSelfReference) {
      id = id.slice(0, -6);
    }
    push(
      `const ${toValidAssetId(id, type)} = ${resolver}(${JSON.stringify(id)}${maybeSelfReference ? `, true` : ``})${isTS ? `!` : ``}`
    );
    if (i < assets.length - 1) {
      newline();
    }
  }
}
function genHoists(hoists, context) {
  if (!hoists.length) {
    return;
  }
  context.pure = true;
  const { push, newline, helper, scopeId, mode } = context;
  const genScopeId = scopeId != null && mode !== "function";
  newline();
  if (genScopeId) {
    push(
      `const _withScopeId = n => (${helper(
        PUSH_SCOPE_ID
      )}("${scopeId}"),n=n(),${helper(POP_SCOPE_ID)}(),n)`
    );
    newline();
  }
  for (let i = 0; i < hoists.length; i++) {
    const exp = hoists[i];
    if (exp) {
      const needScopeIdWrapper = genScopeId && exp.type === 13;
      push(
        `const _hoisted_${i + 1} = ${needScopeIdWrapper ? `${PURE_ANNOTATION} _withScopeId(() => ` : ``}`
      );
      genNode(exp, context);
      if (needScopeIdWrapper) {
        push(`)`);
      }
      newline();
    }
  }
  context.pure = false;
}
function genImports(importsOptions, context) {
  if (!importsOptions.length) {
    return;
  }
  importsOptions.forEach((imports) => {
    context.push(`import `);
    genNode(imports.exp, context);
    context.push(` from '${imports.path}'`);
    context.newline();
  });
}
function isText(n) {
  return isString$2(n) || n.type === 4 || n.type === 2 || n.type === 5 || n.type === 8;
}
function genNodeListAsArray(nodes, context) {
  const multilines = nodes.length > 3 || nodes.some((n) => isArray$3(n) || !isText(n));
  context.push(`[`);
  multilines && context.indent();
  genNodeList(nodes, context, multilines);
  multilines && context.deindent();
  context.push(`]`);
}
function genNodeList(nodes, context, multilines = false, comma = true) {
  const { push, newline } = context;
  for (let i = 0; i < nodes.length; i++) {
    const node = nodes[i];
    if (isString$2(node)) {
      push(node);
    } else if (isArray$3(node)) {
      genNodeListAsArray(node, context);
    } else {
      genNode(node, context);
    }
    if (i < nodes.length - 1) {
      if (multilines) {
        comma && push(",");
        newline();
      } else {
        comma && push(", ");
      }
    }
  }
}
function genNode(node, context) {
  if (isString$2(node)) {
    context.push(node);
    return;
  }
  if (isSymbol$1(node)) {
    context.push(context.helper(node));
    return;
  }
  switch (node.type) {
    case 1:
    case 9:
    case 11:
      assert(
        node.codegenNode != null,
        `Codegen node is missing for element/if/for node. Apply appropriate transforms first.`
      );
      genNode(node.codegenNode, context);
      break;
    case 2:
      genText(node, context);
      break;
    case 4:
      genExpression(node, context);
      break;
    case 5:
      genInterpolation(node, context);
      break;
    case 12:
      genNode(node.codegenNode, context);
      break;
    case 8:
      genCompoundExpression(node, context);
      break;
    case 3:
      genComment(node, context);
      break;
    case 13:
      genVNodeCall(node, context);
      break;
    case 14:
      genCallExpression(node, context);
      break;
    case 15:
      genObjectExpression(node, context);
      break;
    case 17:
      genArrayExpression(node, context);
      break;
    case 18:
      genFunctionExpression(node, context);
      break;
    case 19:
      genConditionalExpression(node, context);
      break;
    case 20:
      genCacheExpression(node, context);
      break;
    case 21:
      genNodeList(node.body, context, true, false);
      break;
    case 22:
      genTemplateLiteral(node, context);
      break;
    case 23:
      genIfStatement(node, context);
      break;
    case 24:
      genAssignmentExpression(node, context);
      break;
    case 25:
      genSequenceExpression(node, context);
      break;
    case 26:
      genReturnStatement(node, context);
      break;
    case 10:
      break;
    default:
      {
        assert(false, `unhandled codegen node type: ${node.type}`);
        const exhaustiveCheck = node;
        return exhaustiveCheck;
      }
  }
}
function genText(node, context) {
  context.push(JSON.stringify(node.content), node);
}
function genExpression(node, context) {
  const { content, isStatic } = node;
  context.push(isStatic ? JSON.stringify(content) : content, node);
}
function genInterpolation(node, context) {
  const { push, helper, pure } = context;
  if (pure)
    push(PURE_ANNOTATION);
  push(`${helper(TO_DISPLAY_STRING)}(`);
  genNode(node.content, context);
  push(`)`);
}
function genCompoundExpression(node, context) {
  for (let i = 0; i < node.children.length; i++) {
    const child = node.children[i];
    if (isString$2(child)) {
      context.push(child);
    } else {
      genNode(child, context);
    }
  }
}
function genExpressionAsPropertyKey(node, context) {
  const { push } = context;
  if (node.type === 8) {
    push(`[`);
    genCompoundExpression(node, context);
    push(`]`);
  } else if (node.isStatic) {
    const text = isSimpleIdentifier(node.content) ? node.content : JSON.stringify(node.content);
    push(text, node);
  } else {
    push(`[${node.content}]`, node);
  }
}
function genComment(node, context) {
  const { push, helper, pure } = context;
  if (pure) {
    push(PURE_ANNOTATION);
  }
  push(`${helper(CREATE_COMMENT)}(${JSON.stringify(node.content)})`, node);
}
function genVNodeCall(node, context) {
  const { push, helper, pure } = context;
  const {
    tag,
    props,
    children,
    patchFlag,
    dynamicProps,
    directives,
    isBlock,
    disableTracking,
    isComponent
  } = node;
  if (directives) {
    push(helper(WITH_DIRECTIVES) + `(`);
  }
  if (isBlock) {
    push(`(${helper(OPEN_BLOCK)}(${disableTracking ? `true` : ``}), `);
  }
  if (pure) {
    push(PURE_ANNOTATION);
  }
  const callHelper = isBlock ? getVNodeBlockHelper(context.inSSR, isComponent) : getVNodeHelper(context.inSSR, isComponent);
  push(helper(callHelper) + `(`, node);
  genNodeList(
    genNullableArgs([tag, props, children, patchFlag, dynamicProps]),
    context
  );
  push(`)`);
  if (isBlock) {
    push(`)`);
  }
  if (directives) {
    push(`, `);
    genNode(directives, context);
    push(`)`);
  }
}
function genNullableArgs(args) {
  let i = args.length;
  while (i--) {
    if (args[i] != null)
      break;
  }
  return args.slice(0, i + 1).map((arg) => arg || `null`);
}
function genCallExpression(node, context) {
  const { push, helper, pure } = context;
  const callee = isString$2(node.callee) ? node.callee : helper(node.callee);
  if (pure) {
    push(PURE_ANNOTATION);
  }
  push(callee + `(`, node);
  genNodeList(node.arguments, context);
  push(`)`);
}
function genObjectExpression(node, context) {
  const { push, indent, deindent, newline } = context;
  const { properties } = node;
  if (!properties.length) {
    push(`{}`, node);
    return;
  }
  const multilines = properties.length > 1 || properties.some((p) => p.value.type !== 4);
  push(multilines ? `{` : `{ `);
  multilines && indent();
  for (let i = 0; i < properties.length; i++) {
    const { key, value } = properties[i];
    genExpressionAsPropertyKey(key, context);
    push(`: `);
    genNode(value, context);
    if (i < properties.length - 1) {
      push(`,`);
      newline();
    }
  }
  multilines && deindent();
  push(multilines ? `}` : ` }`);
}
function genArrayExpression(node, context) {
  genNodeListAsArray(node.elements, context);
}
function genFunctionExpression(node, context) {
  const { push, indent, deindent } = context;
  const { params, returns, body, newline, isSlot } = node;
  if (isSlot) {
    push(`_${helperNameMap[WITH_CTX]}(`);
  }
  push(`(`, node);
  if (isArray$3(params)) {
    genNodeList(params, context);
  } else if (params) {
    genNode(params, context);
  }
  push(`) => `);
  if (newline || body) {
    push(`{`);
    indent();
  }
  if (returns) {
    if (newline) {
      push(`return `);
    }
    if (isArray$3(returns)) {
      genNodeListAsArray(returns, context);
    } else {
      genNode(returns, context);
    }
  } else if (body) {
    genNode(body, context);
  }
  if (newline || body) {
    deindent();
    push(`}`);
  }
  if (isSlot) {
    push(`)`);
  }
}
function genConditionalExpression(node, context) {
  const { test, consequent, alternate, newline: needNewline } = node;
  const { push, indent, deindent, newline } = context;
  if (test.type === 4) {
    const needsParens = !isSimpleIdentifier(test.content);
    needsParens && push(`(`);
    genExpression(test, context);
    needsParens && push(`)`);
  } else {
    push(`(`);
    genNode(test, context);
    push(`)`);
  }
  needNewline && indent();
  context.indentLevel++;
  needNewline || push(` `);
  push(`? `);
  genNode(consequent, context);
  context.indentLevel--;
  needNewline && newline();
  needNewline || push(` `);
  push(`: `);
  const isNested = alternate.type === 19;
  if (!isNested) {
    context.indentLevel++;
  }
  genNode(alternate, context);
  if (!isNested) {
    context.indentLevel--;
  }
  needNewline && deindent(
    true
    /* without newline */
  );
}
function genCacheExpression(node, context) {
  const { push, helper, indent, deindent, newline } = context;
  push(`_cache[${node.index}] || (`);
  if (node.isVNode) {
    indent();
    push(`${helper(SET_BLOCK_TRACKING)}(-1),`);
    newline();
  }
  push(`_cache[${node.index}] = `);
  genNode(node.value, context);
  if (node.isVNode) {
    push(`,`);
    newline();
    push(`${helper(SET_BLOCK_TRACKING)}(1),`);
    newline();
    push(`_cache[${node.index}]`);
    deindent();
  }
  push(`)`);
}
function genTemplateLiteral(node, context) {
  const { push, indent, deindent } = context;
  push("`");
  const l = node.elements.length;
  const multilines = l > 3;
  for (let i = 0; i < l; i++) {
    const e = node.elements[i];
    if (isString$2(e)) {
      push(e.replace(/(`|\$|\\)/g, "\\$1"));
    } else {
      push("${");
      if (multilines)
        indent();
      genNode(e, context);
      if (multilines)
        deindent();
      push("}");
    }
  }
  push("`");
}
function genIfStatement(node, context) {
  const { push, indent, deindent } = context;
  const { test, consequent, alternate } = node;
  push(`if (`);
  genNode(test, context);
  push(`) {`);
  indent();
  genNode(consequent, context);
  deindent();
  push(`}`);
  if (alternate) {
    push(` else `);
    if (alternate.type === 23) {
      genIfStatement(alternate, context);
    } else {
      push(`{`);
      indent();
      genNode(alternate, context);
      deindent();
      push(`}`);
    }
  }
}
function genAssignmentExpression(node, context) {
  genNode(node.left, context);
  context.push(` = `);
  genNode(node.right, context);
}
function genSequenceExpression(node, context) {
  context.push(`(`);
  genNodeList(node.expressions, context);
  context.push(`)`);
}
function genReturnStatement({ returns }, context) {
  context.push(`return `);
  if (isArray$3(returns)) {
    genNodeListAsArray(returns, context);
  } else {
    genNode(returns, context);
  }
}

// @ts-check
/** @typedef { import('estree').BaseNode} BaseNode */

/** @typedef {{
	skip: () => void;
	remove: () => void;
	replace: (node: BaseNode) => void;
}} WalkerContext */

class WalkerBase {
	constructor() {
		/** @type {boolean} */
		this.should_skip = false;

		/** @type {boolean} */
		this.should_remove = false;

		/** @type {BaseNode | null} */
		this.replacement = null;

		/** @type {WalkerContext} */
		this.context = {
			skip: () => (this.should_skip = true),
			remove: () => (this.should_remove = true),
			replace: (node) => (this.replacement = node)
		};
	}

	/**
	 *
	 * @param {any} parent
	 * @param {string} prop
	 * @param {number} index
	 * @param {BaseNode} node
	 */
	replace(parent, prop, index, node) {
		if (parent) {
			if (index !== null) {
				parent[prop][index] = node;
			} else {
				parent[prop] = node;
			}
		}
	}

	/**
	 *
	 * @param {any} parent
	 * @param {string} prop
	 * @param {number} index
	 */
	remove(parent, prop, index) {
		if (parent) {
			if (index !== null) {
				parent[prop].splice(index, 1);
			} else {
				delete parent[prop];
			}
		}
	}
}

// @ts-check

/** @typedef { import('estree').BaseNode} BaseNode */
/** @typedef { import('./walker.js').WalkerContext} WalkerContext */

/** @typedef {(
 *    this: WalkerContext,
 *    node: BaseNode,
 *    parent: BaseNode,
 *    key: string,
 *    index: number
 * ) => void} SyncHandler */

class SyncWalker extends WalkerBase {
	/**
	 *
	 * @param {SyncHandler} enter
	 * @param {SyncHandler} leave
	 */
	constructor(enter, leave) {
		super();

		/** @type {SyncHandler} */
		this.enter = enter;

		/** @type {SyncHandler} */
		this.leave = leave;
	}

	/**
	 *
	 * @param {BaseNode} node
	 * @param {BaseNode} parent
	 * @param {string} [prop]
	 * @param {number} [index]
	 * @returns {BaseNode}
	 */
	visit(node, parent, prop, index) {
		if (node) {
			if (this.enter) {
				const _should_skip = this.should_skip;
				const _should_remove = this.should_remove;
				const _replacement = this.replacement;
				this.should_skip = false;
				this.should_remove = false;
				this.replacement = null;

				this.enter.call(this.context, node, parent, prop, index);

				if (this.replacement) {
					node = this.replacement;
					this.replace(parent, prop, index, node);
				}

				if (this.should_remove) {
					this.remove(parent, prop, index);
				}

				const skipped = this.should_skip;
				const removed = this.should_remove;

				this.should_skip = _should_skip;
				this.should_remove = _should_remove;
				this.replacement = _replacement;

				if (skipped) return node;
				if (removed) return null;
			}

			for (const key in node) {
				const value = node[key];

				if (typeof value !== "object") {
					continue;
				} else if (Array.isArray(value)) {
					for (let i = 0; i < value.length; i += 1) {
						if (value[i] !== null && typeof value[i].type === 'string') {
							if (!this.visit(value[i], node, key, i)) {
								// removed
								i--;
							}
						}
					}
				} else if (value !== null && typeof value.type === "string") {
					this.visit(value, node, key, null);
				}
			}

			if (this.leave) {
				const _replacement = this.replacement;
				const _should_remove = this.should_remove;
				this.replacement = null;
				this.should_remove = false;

				this.leave.call(this.context, node, parent, prop, index);

				if (this.replacement) {
					node = this.replacement;
					this.replace(parent, prop, index, node);
				}

				if (this.should_remove) {
					this.remove(parent, prop, index);
				}

				const removed = this.should_remove;

				this.replacement = _replacement;
				this.should_remove = _should_remove;

				if (removed) return null;
			}
		}

		return node;
	}
}

// @ts-check

/** @typedef { import('estree').BaseNode} BaseNode */
/** @typedef { import('./sync.js').SyncHandler} SyncHandler */
/** @typedef { import('./async.js').AsyncHandler} AsyncHandler */

/**
 *
 * @param {BaseNode} ast
 * @param {{
 *   enter?: SyncHandler
 *   leave?: SyncHandler
 * }} walker
 * @returns {BaseNode}
 */
function walk$1(ast, { enter, leave }) {
	const instance = new SyncWalker(enter, leave);
	return instance.visit(ast, null);
}

function walkIdentifiers(root, onIdentifier, includeAll = false, parentStack = [], knownIds = /* @__PURE__ */ Object.create(null)) {
  const rootExp = root.type === "Program" && root.body[0].type === "ExpressionStatement" && root.body[0].expression;
  walk$1(root, {
    enter(node, parent) {
      parent && parentStack.push(parent);
      if (parent && parent.type.startsWith("TS") && !TS_NODE_TYPES.includes(parent.type)) {
        return this.skip();
      }
      if (node.type === "Identifier") {
        const isLocal = !!knownIds[node.name];
        const isRefed = isReferencedIdentifier(node, parent, parentStack);
        if (includeAll || isRefed && !isLocal) {
          onIdentifier(node, parent, parentStack, isRefed, isLocal);
        }
      } else if (node.type === "ObjectProperty" && parent.type === "ObjectPattern") {
        node.inPattern = true;
      } else if (isFunctionType(node)) {
        walkFunctionParams(node, (id) => markScopeIdentifier(node, id, knownIds));
      } else if (node.type === "BlockStatement") {
        walkBlockDeclarations(
          node,
          (id) => markScopeIdentifier(node, id, knownIds)
        );
      }
    },
    leave(node, parent) {
      parent && parentStack.pop();
      if (node !== rootExp && node.scopeIds) {
        for (const id of node.scopeIds) {
          knownIds[id]--;
          if (knownIds[id] === 0) {
            delete knownIds[id];
          }
        }
      }
    }
  });
}
function isReferencedIdentifier(id, parent, parentStack) {
  if (!parent) {
    return true;
  }
  if (id.name === "arguments") {
    return false;
  }
  if (isReferenced(id, parent)) {
    return true;
  }
  switch (parent.type) {
    case "AssignmentExpression":
    case "AssignmentPattern":
      return true;
    case "ObjectPattern":
    case "ArrayPattern":
      return isInDestructureAssignment(parent, parentStack);
  }
  return false;
}
function isInDestructureAssignment(parent, parentStack) {
  if (parent && (parent.type === "ObjectProperty" || parent.type === "ArrayPattern")) {
    let i = parentStack.length;
    while (i--) {
      const p = parentStack[i];
      if (p.type === "AssignmentExpression") {
        return true;
      } else if (p.type !== "ObjectProperty" && !p.type.endsWith("Pattern")) {
        break;
      }
    }
  }
  return false;
}
function walkFunctionParams(node, onIdent) {
  for (const p of node.params) {
    for (const id of extractIdentifiers(p)) {
      onIdent(id);
    }
  }
}
function walkBlockDeclarations(block, onIdent) {
  for (const stmt of block.body) {
    if (stmt.type === "VariableDeclaration") {
      if (stmt.declare)
        continue;
      for (const decl of stmt.declarations) {
        for (const id of extractIdentifiers(decl.id)) {
          onIdent(id);
        }
      }
    } else if (stmt.type === "FunctionDeclaration" || stmt.type === "ClassDeclaration") {
      if (stmt.declare || !stmt.id)
        continue;
      onIdent(stmt.id);
    }
  }
}
function extractIdentifiers(param, nodes = []) {
  switch (param.type) {
    case "Identifier":
      nodes.push(param);
      break;
    case "MemberExpression":
      let object = param;
      while (object.type === "MemberExpression") {
        object = object.object;
      }
      nodes.push(object);
      break;
    case "ObjectPattern":
      for (const prop of param.properties) {
        if (prop.type === "RestElement") {
          extractIdentifiers(prop.argument, nodes);
        } else {
          extractIdentifiers(prop.value, nodes);
        }
      }
      break;
    case "ArrayPattern":
      param.elements.forEach((element) => {
        if (element)
          extractIdentifiers(element, nodes);
      });
      break;
    case "RestElement":
      extractIdentifiers(param.argument, nodes);
      break;
    case "AssignmentPattern":
      extractIdentifiers(param.left, nodes);
      break;
  }
  return nodes;
}
function markScopeIdentifier(node, child, knownIds) {
  const { name } = child;
  if (node.scopeIds && node.scopeIds.has(name)) {
    return;
  }
  if (name in knownIds) {
    knownIds[name]++;
  } else {
    knownIds[name] = 1;
  }
  (node.scopeIds || (node.scopeIds = /* @__PURE__ */ new Set())).add(name);
}
const isFunctionType = (node) => {
  return /Function(?:Expression|Declaration)$|Method$/.test(node.type);
};
const isStaticProperty = (node) => node && (node.type === "ObjectProperty" || node.type === "ObjectMethod") && !node.computed;
const isStaticPropertyKey = (node, parent) => isStaticProperty(parent) && parent.key === node;
function isReferenced(node, parent, grandparent) {
  switch (parent.type) {
    case "MemberExpression":
    case "OptionalMemberExpression":
      if (parent.property === node) {
        return !!parent.computed;
      }
      return parent.object === node;
    case "JSXMemberExpression":
      return parent.object === node;
    case "VariableDeclarator":
      return parent.init === node;
    case "ArrowFunctionExpression":
      return parent.body === node;
    case "PrivateName":
      return false;
    case "ClassMethod":
    case "ClassPrivateMethod":
    case "ObjectMethod":
      if (parent.key === node) {
        return !!parent.computed;
      }
      return false;
    case "ObjectProperty":
      if (parent.key === node) {
        return !!parent.computed;
      }
      return !grandparent || grandparent.type !== "ObjectPattern";
    case "ClassProperty":
      if (parent.key === node) {
        return !!parent.computed;
      }
      return true;
    case "ClassPrivateProperty":
      return parent.key !== node;
    case "ClassDeclaration":
    case "ClassExpression":
      return parent.superClass === node;
    case "AssignmentExpression":
      return parent.right === node;
    case "AssignmentPattern":
      return parent.right === node;
    case "LabeledStatement":
      return false;
    case "CatchClause":
      return false;
    case "RestElement":
      return false;
    case "BreakStatement":
    case "ContinueStatement":
      return false;
    case "FunctionDeclaration":
    case "FunctionExpression":
      return false;
    case "ExportNamespaceSpecifier":
    case "ExportDefaultSpecifier":
      return false;
    case "ExportSpecifier":
      if (grandparent == null ? void 0 : grandparent.source) {
        return false;
      }
      return parent.local === node;
    case "ImportDefaultSpecifier":
    case "ImportNamespaceSpecifier":
    case "ImportSpecifier":
      return false;
    case "ImportAttribute":
      return false;
    case "JSXAttribute":
      return false;
    case "ObjectPattern":
    case "ArrayPattern":
      return false;
    case "MetaProperty":
      return false;
    case "ObjectTypeProperty":
      return parent.key !== node;
    case "TSEnumMember":
      return parent.id !== node;
    case "TSPropertySignature":
      if (parent.key === node) {
        return !!parent.computed;
      }
      return true;
  }
  return true;
}
const TS_NODE_TYPES = [
  "TSAsExpression",
  // foo as number
  "TSTypeAssertion",
  // (<number>foo)
  "TSNonNullExpression",
  // foo!
  "TSInstantiationExpression",
  // foo<string>
  "TSSatisfiesExpression"
  // foo satisfies T
];

const isLiteralWhitelisted = /* @__PURE__ */ makeMap("true,false,null,this");
const constantBailRE = /\w\s*\(|\.[^\d]/;
const transformExpression = (node, context) => {
  if (node.type === 5) {
    node.content = processExpression(
      node.content,
      context
    );
  } else if (node.type === 1) {
    for (let i = 0; i < node.props.length; i++) {
      const dir = node.props[i];
      if (dir.type === 7 && dir.name !== "for") {
        const exp = dir.exp;
        const arg = dir.arg;
        if (exp && exp.type === 4 && !(dir.name === "on" && arg)) {
          dir.exp = processExpression(
            exp,
            context,
            // slot args must be processed as function params
            dir.name === "slot"
          );
        }
        if (arg && arg.type === 4 && !arg.isStatic) {
          dir.arg = processExpression(arg, context);
        }
      }
    }
  }
};
function processExpression(node, context, asParams = false, asRawStatements = false, localVars = Object.create(context.identifiers)) {
  if (!context.prefixIdentifiers || !node.content.trim()) {
    return node;
  }
  const { inline, bindingMetadata } = context;
  const rewriteIdentifier = (raw, parent, id) => {
    const type = hasOwn(bindingMetadata, raw) && bindingMetadata[raw];
    if (inline) {
      const isAssignmentLVal = parent && parent.type === "AssignmentExpression" && parent.left === id;
      const isUpdateArg = parent && parent.type === "UpdateExpression" && parent.argument === id;
      const isDestructureAssignment = parent && isInDestructureAssignment(parent, parentStack);
      if (isConst(type) || type === "setup-reactive-const" || localVars[raw]) {
        return raw;
      } else if (type === "setup-ref") {
        return `${raw}.value`;
      } else if (type === "setup-maybe-ref") {
        return isAssignmentLVal || isUpdateArg || isDestructureAssignment ? `${raw}.value` : `${context.helperString(UNREF)}(${raw})`;
      } else if (type === "setup-let") {
        if (isAssignmentLVal) {
          const { right: rVal, operator } = parent;
          const rExp = rawExp.slice(rVal.start - 1, rVal.end - 1);
          const rExpString = stringifyExpression(
            processExpression(
              createSimpleExpression(rExp, false),
              context,
              false,
              false,
              knownIds
            )
          );
          return `${context.helperString(IS_REF)}(${raw})${context.isTS ? ` //@ts-ignore
` : ``} ? ${raw}.value ${operator} ${rExpString} : ${raw}`;
        } else if (isUpdateArg) {
          id.start = parent.start;
          id.end = parent.end;
          const { prefix: isPrefix, operator } = parent;
          const prefix = isPrefix ? operator : ``;
          const postfix = isPrefix ? `` : operator;
          return `${context.helperString(IS_REF)}(${raw})${context.isTS ? ` //@ts-ignore
` : ``} ? ${prefix}${raw}.value${postfix} : ${prefix}${raw}${postfix}`;
        } else if (isDestructureAssignment) {
          return raw;
        } else {
          return `${context.helperString(UNREF)}(${raw})`;
        }
      } else if (type === "props") {
        return genPropsAccessExp(raw);
      } else if (type === "props-aliased") {
        return genPropsAccessExp(bindingMetadata.__propsAliases[raw]);
      }
    } else {
      if (type && type.startsWith("setup") || type === "literal-const") {
        return `$setup.${raw}`;
      } else if (type === "props-aliased") {
        return `$props['${bindingMetadata.__propsAliases[raw]}']`;
      } else if (type) {
        return `$${type}.${raw}`;
      }
    }
    return `_ctx.${raw}`;
  };
  const rawExp = node.content;
  const bailConstant = constantBailRE.test(rawExp);
  if (isSimpleIdentifier(rawExp)) {
    const isScopeVarReference = context.identifiers[rawExp];
    const isAllowedGlobal = isGloballyWhitelisted(rawExp);
    const isLiteral = isLiteralWhitelisted(rawExp);
    if (!asParams && !isScopeVarReference && !isAllowedGlobal && !isLiteral) {
      if (isConst(bindingMetadata[node.content])) {
        node.constType = 1;
      }
      node.content = rewriteIdentifier(rawExp);
    } else if (!isScopeVarReference) {
      if (isLiteral) {
        node.constType = 3;
      } else {
        node.constType = 2;
      }
    }
    return node;
  }
  let ast;
  const source = asRawStatements ? ` ${rawExp} ` : `(${rawExp})${asParams ? `=>{}` : ``}`;
  try {
    ast = parse_1$1(source, {
      plugins: context.expressionPlugins
    }).program;
  } catch (e) {
    context.onError(
      createCompilerError(
        45,
        node.loc,
        void 0,
        e.message
      )
    );
    return node;
  }
  const ids = [];
  const parentStack = [];
  const knownIds = Object.create(context.identifiers);
  walkIdentifiers(
    ast,
    (node2, parent, _, isReferenced, isLocal) => {
      if (isStaticPropertyKey(node2, parent)) {
        return;
      }
      const needPrefix = isReferenced && canPrefix(node2);
      if (needPrefix && !isLocal) {
        if (isStaticProperty(parent) && parent.shorthand) {
          node2.prefix = `${node2.name}: `;
        }
        node2.name = rewriteIdentifier(node2.name, parent, node2);
        ids.push(node2);
      } else {
        if (!(needPrefix && isLocal) && !bailConstant) {
          node2.isConstant = true;
        }
        ids.push(node2);
      }
    },
    true,
    // invoke on ALL identifiers
    parentStack,
    knownIds
  );
  const children = [];
  ids.sort((a, b) => a.start - b.start);
  ids.forEach((id, i) => {
    const start = id.start - 1;
    const end = id.end - 1;
    const last = ids[i - 1];
    const leadingText = rawExp.slice(last ? last.end - 1 : 0, start);
    if (leadingText.length || id.prefix) {
      children.push(leadingText + (id.prefix || ``));
    }
    const source2 = rawExp.slice(start, end);
    children.push(
      createSimpleExpression(
        id.name,
        false,
        {
          source: source2,
          start: advancePositionWithClone(node.loc.start, source2, start),
          end: advancePositionWithClone(node.loc.start, source2, end)
        },
        id.isConstant ? 3 : 0
      )
    );
    if (i === ids.length - 1 && end < rawExp.length) {
      children.push(rawExp.slice(end));
    }
  });
  let ret;
  if (children.length) {
    ret = createCompoundExpression(children, node.loc);
  } else {
    ret = node;
    ret.constType = bailConstant ? 0 : 3;
  }
  ret.identifiers = Object.keys(knownIds);
  return ret;
}
function canPrefix(id) {
  if (isGloballyWhitelisted(id.name)) {
    return false;
  }
  if (id.name === "require") {
    return false;
  }
  return true;
}
function stringifyExpression(exp) {
  if (isString$2(exp)) {
    return exp;
  } else if (exp.type === 4) {
    return exp.content;
  } else {
    return exp.children.map(stringifyExpression).join("");
  }
}
function isConst(type) {
  return type === "setup-const" || type === "literal-const";
}

const transformIf = createStructuralDirectiveTransform(
  /^(if|else|else-if)$/,
  (node, dir, context) => {
    return processIf(node, dir, context, (ifNode, branch, isRoot) => {
      const siblings = context.parent.children;
      let i = siblings.indexOf(ifNode);
      let key = 0;
      while (i-- >= 0) {
        const sibling = siblings[i];
        if (sibling && sibling.type === 9) {
          key += sibling.branches.length;
        }
      }
      return () => {
        if (isRoot) {
          ifNode.codegenNode = createCodegenNodeForBranch(
            branch,
            key,
            context
          );
        } else {
          const parentCondition = getParentCondition(ifNode.codegenNode);
          parentCondition.alternate = createCodegenNodeForBranch(
            branch,
            key + ifNode.branches.length - 1,
            context
          );
        }
      };
    });
  }
);
function processIf(node, dir, context, processCodegen) {
  if (dir.name !== "else" && (!dir.exp || !dir.exp.content.trim())) {
    const loc = dir.exp ? dir.exp.loc : node.loc;
    context.onError(
      createCompilerError(28, dir.loc)
    );
    dir.exp = createSimpleExpression(`true`, false, loc);
  }
  if (context.prefixIdentifiers && dir.exp) {
    dir.exp = processExpression(dir.exp, context);
  }
  if (dir.name === "if") {
    const branch = createIfBranch(node, dir);
    const ifNode = {
      type: 9,
      loc: node.loc,
      branches: [branch]
    };
    context.replaceNode(ifNode);
    if (processCodegen) {
      return processCodegen(ifNode, branch, true);
    }
  } else {
    const siblings = context.parent.children;
    const comments = [];
    let i = siblings.indexOf(node);
    while (i-- >= -1) {
      const sibling = siblings[i];
      if (sibling && sibling.type === 3) {
        context.removeNode(sibling);
        comments.unshift(sibling);
        continue;
      }
      if (sibling && sibling.type === 2 && !sibling.content.trim().length) {
        context.removeNode(sibling);
        continue;
      }
      if (sibling && sibling.type === 9) {
        if (dir.name === "else-if" && sibling.branches[sibling.branches.length - 1].condition === void 0) {
          context.onError(
            createCompilerError(30, node.loc)
          );
        }
        context.removeNode();
        const branch = createIfBranch(node, dir);
        if (comments.length && // #3619 ignore comments if the v-if is direct child of <transition>
        !(context.parent && context.parent.type === 1 && isBuiltInType(context.parent.tag, "transition"))) {
          branch.children = [...comments, ...branch.children];
        }
        {
          const key = branch.userKey;
          if (key) {
            sibling.branches.forEach(({ userKey }) => {
              if (isSameKey(userKey, key)) {
                context.onError(
                  createCompilerError(
                    29,
                    branch.userKey.loc
                  )
                );
              }
            });
          }
        }
        sibling.branches.push(branch);
        const onExit = processCodegen && processCodegen(sibling, branch, false);
        traverseNode(branch, context);
        if (onExit)
          onExit();
        context.currentNode = null;
      } else {
        context.onError(
          createCompilerError(30, node.loc)
        );
      }
      break;
    }
  }
}
function createIfBranch(node, dir) {
  const isTemplateIf = node.tagType === 3;
  return {
    type: 10,
    loc: node.loc,
    condition: dir.name === "else" ? void 0 : dir.exp,
    children: isTemplateIf && !findDir(node, "for") ? node.children : [node],
    userKey: findProp(node, `key`),
    isTemplateIf
  };
}
function createCodegenNodeForBranch(branch, keyIndex, context) {
  if (branch.condition) {
    return createConditionalExpression(
      branch.condition,
      createChildrenCodegenNode(branch, keyIndex, context),
      // make sure to pass in asBlock: true so that the comment node call
      // closes the current block.
      createCallExpression(context.helper(CREATE_COMMENT), [
        '"v-if"' ,
        "true"
      ])
    );
  } else {
    return createChildrenCodegenNode(branch, keyIndex, context);
  }
}
function createChildrenCodegenNode(branch, keyIndex, context) {
  const { helper } = context;
  const keyProperty = createObjectProperty(
    `key`,
    createSimpleExpression(
      `${keyIndex}`,
      false,
      locStub,
      2
    )
  );
  const { children } = branch;
  const firstChild = children[0];
  const needFragmentWrapper = children.length !== 1 || firstChild.type !== 1;
  if (needFragmentWrapper) {
    if (children.length === 1 && firstChild.type === 11) {
      const vnodeCall = firstChild.codegenNode;
      injectProp(vnodeCall, keyProperty, context);
      return vnodeCall;
    } else {
      let patchFlag = 64;
      let patchFlagText = PatchFlagNames[64];
      if (!branch.isTemplateIf && children.filter((c) => c.type !== 3).length === 1) {
        patchFlag |= 2048;
        patchFlagText += `, ${PatchFlagNames[2048]}`;
      }
      return createVNodeCall(
        context,
        helper(FRAGMENT),
        createObjectExpression([keyProperty]),
        children,
        patchFlag + (` /* ${patchFlagText} */` ),
        void 0,
        void 0,
        true,
        false,
        false,
        branch.loc
      );
    }
  } else {
    const ret = firstChild.codegenNode;
    const vnodeCall = getMemoedVNodeCall(ret);
    if (vnodeCall.type === 13) {
      convertToBlock(vnodeCall, context);
    }
    injectProp(vnodeCall, keyProperty, context);
    return ret;
  }
}
function isSameKey(a, b) {
  if (!a || a.type !== b.type) {
    return false;
  }
  if (a.type === 6) {
    if (a.value.content !== b.value.content) {
      return false;
    }
  } else {
    const exp = a.exp;
    const branchExp = b.exp;
    if (exp.type !== branchExp.type) {
      return false;
    }
    if (exp.type !== 4 || exp.isStatic !== branchExp.isStatic || exp.content !== branchExp.content) {
      return false;
    }
  }
  return true;
}
function getParentCondition(node) {
  while (true) {
    if (node.type === 19) {
      if (node.alternate.type === 19) {
        node = node.alternate;
      } else {
        return node;
      }
    } else if (node.type === 20) {
      node = node.value;
    }
  }
}

const transformFor = createStructuralDirectiveTransform(
  "for",
  (node, dir, context) => {
    const { helper, removeHelper } = context;
    return processFor(node, dir, context, (forNode) => {
      const renderExp = createCallExpression(helper(RENDER_LIST), [
        forNode.source
      ]);
      const isTemplate = isTemplateNode(node);
      const memo = findDir(node, "memo");
      const keyProp = findProp(node, `key`);
      const keyExp = keyProp && (keyProp.type === 6 ? createSimpleExpression(keyProp.value.content, true) : keyProp.exp);
      const keyProperty = keyProp ? createObjectProperty(`key`, keyExp) : null;
      if (isTemplate) {
        if (memo) {
          memo.exp = processExpression(
            memo.exp,
            context
          );
        }
        if (keyProperty && keyProp.type !== 6) {
          keyProperty.value = processExpression(
            keyProperty.value,
            context
          );
        }
      }
      const isStableFragment = forNode.source.type === 4 && forNode.source.constType > 0;
      const fragmentFlag = isStableFragment ? 64 : keyProp ? 128 : 256;
      forNode.codegenNode = createVNodeCall(
        context,
        helper(FRAGMENT),
        void 0,
        renderExp,
        fragmentFlag + (` /* ${PatchFlagNames[fragmentFlag]} */` ),
        void 0,
        void 0,
        true,
        !isStableFragment,
        false,
        node.loc
      );
      return () => {
        let childBlock;
        const { children } = forNode;
        if (isTemplate) {
          node.children.some((c) => {
            if (c.type === 1) {
              const key = findProp(c, "key");
              if (key) {
                context.onError(
                  createCompilerError(
                    33,
                    key.loc
                  )
                );
                return true;
              }
            }
          });
        }
        const needFragmentWrapper = children.length !== 1 || children[0].type !== 1;
        const slotOutlet = isSlotOutlet(node) ? node : isTemplate && node.children.length === 1 && isSlotOutlet(node.children[0]) ? node.children[0] : null;
        if (slotOutlet) {
          childBlock = slotOutlet.codegenNode;
          if (isTemplate && keyProperty) {
            injectProp(childBlock, keyProperty, context);
          }
        } else if (needFragmentWrapper) {
          childBlock = createVNodeCall(
            context,
            helper(FRAGMENT),
            keyProperty ? createObjectExpression([keyProperty]) : void 0,
            node.children,
            64 + (` /* ${PatchFlagNames[64]} */` ),
            void 0,
            void 0,
            true,
            void 0,
            false
            /* isComponent */
          );
        } else {
          childBlock = children[0].codegenNode;
          if (isTemplate && keyProperty) {
            injectProp(childBlock, keyProperty, context);
          }
          if (childBlock.isBlock !== !isStableFragment) {
            if (childBlock.isBlock) {
              removeHelper(OPEN_BLOCK);
              removeHelper(
                getVNodeBlockHelper(context.inSSR, childBlock.isComponent)
              );
            } else {
              removeHelper(
                getVNodeHelper(context.inSSR, childBlock.isComponent)
              );
            }
          }
          childBlock.isBlock = !isStableFragment;
          if (childBlock.isBlock) {
            helper(OPEN_BLOCK);
            helper(getVNodeBlockHelper(context.inSSR, childBlock.isComponent));
          } else {
            helper(getVNodeHelper(context.inSSR, childBlock.isComponent));
          }
        }
        if (memo) {
          const loop = createFunctionExpression(
            createForLoopParams(forNode.parseResult, [
              createSimpleExpression(`_cached`)
            ])
          );
          loop.body = createBlockStatement([
            createCompoundExpression([`const _memo = (`, memo.exp, `)`]),
            createCompoundExpression([
              `if (_cached`,
              ...keyExp ? [` && _cached.key === `, keyExp] : [],
              ` && ${context.helperString(
                IS_MEMO_SAME
              )}(_cached, _memo)) return _cached`
            ]),
            createCompoundExpression([`const _item = `, childBlock]),
            createSimpleExpression(`_item.memo = _memo`),
            createSimpleExpression(`return _item`)
          ]);
          renderExp.arguments.push(
            loop,
            createSimpleExpression(`_cache`),
            createSimpleExpression(String(context.cached++))
          );
        } else {
          renderExp.arguments.push(
            createFunctionExpression(
              createForLoopParams(forNode.parseResult),
              childBlock,
              true
              /* force newline */
            )
          );
        }
      };
    });
  }
);
function processFor(node, dir, context, processCodegen) {
  if (!dir.exp) {
    context.onError(
      createCompilerError(31, dir.loc)
    );
    return;
  }
  const parseResult = parseForExpression(
    // can only be simple expression because vFor transform is applied
    // before expression transform.
    dir.exp,
    context
  );
  if (!parseResult) {
    context.onError(
      createCompilerError(32, dir.loc)
    );
    return;
  }
  const { addIdentifiers, removeIdentifiers, scopes } = context;
  const { source, value, key, index } = parseResult;
  const forNode = {
    type: 11,
    loc: dir.loc,
    source,
    valueAlias: value,
    keyAlias: key,
    objectIndexAlias: index,
    parseResult,
    children: isTemplateNode(node) ? node.children : [node]
  };
  context.replaceNode(forNode);
  scopes.vFor++;
  if (context.prefixIdentifiers) {
    value && addIdentifiers(value);
    key && addIdentifiers(key);
    index && addIdentifiers(index);
  }
  const onExit = processCodegen && processCodegen(forNode);
  return () => {
    scopes.vFor--;
    if (context.prefixIdentifiers) {
      value && removeIdentifiers(value);
      key && removeIdentifiers(key);
      index && removeIdentifiers(index);
    }
    if (onExit)
      onExit();
  };
}
const forAliasRE$1 = /([\s\S]*?)\s+(?:in|of)\s+([\s\S]*)/;
const forIteratorRE = /,([^,\}\]]*)(?:,([^,\}\]]*))?$/;
const stripParensRE = /^\(|\)$/g;
function parseForExpression(input, context) {
  const loc = input.loc;
  const exp = input.content;
  const inMatch = exp.match(forAliasRE$1);
  if (!inMatch)
    return;
  const [, LHS, RHS] = inMatch;
  const result = {
    source: createAliasExpression(
      loc,
      RHS.trim(),
      exp.indexOf(RHS, LHS.length)
    ),
    value: void 0,
    key: void 0,
    index: void 0
  };
  if (context.prefixIdentifiers) {
    result.source = processExpression(
      result.source,
      context
    );
  }
  let valueContent = LHS.trim().replace(stripParensRE, "").trim();
  const trimmedOffset = LHS.indexOf(valueContent);
  const iteratorMatch = valueContent.match(forIteratorRE);
  if (iteratorMatch) {
    valueContent = valueContent.replace(forIteratorRE, "").trim();
    const keyContent = iteratorMatch[1].trim();
    let keyOffset;
    if (keyContent) {
      keyOffset = exp.indexOf(keyContent, trimmedOffset + valueContent.length);
      result.key = createAliasExpression(loc, keyContent, keyOffset);
      if (context.prefixIdentifiers) {
        result.key = processExpression(result.key, context, true);
      }
    }
    if (iteratorMatch[2]) {
      const indexContent = iteratorMatch[2].trim();
      if (indexContent) {
        result.index = createAliasExpression(
          loc,
          indexContent,
          exp.indexOf(
            indexContent,
            result.key ? keyOffset + keyContent.length : trimmedOffset + valueContent.length
          )
        );
        if (context.prefixIdentifiers) {
          result.index = processExpression(result.index, context, true);
        }
      }
    }
  }
  if (valueContent) {
    result.value = createAliasExpression(loc, valueContent, trimmedOffset);
    if (context.prefixIdentifiers) {
      result.value = processExpression(result.value, context, true);
    }
  }
  return result;
}
function createAliasExpression(range, content, offset) {
  return createSimpleExpression(
    content,
    false,
    getInnerRange(range, offset, content.length)
  );
}
function createForLoopParams({ value, key, index }, memoArgs = []) {
  return createParamsList([value, key, index, ...memoArgs]);
}
function createParamsList(args) {
  let i = args.length;
  while (i--) {
    if (args[i])
      break;
  }
  return args.slice(0, i + 1).map((arg, i2) => arg || createSimpleExpression(`_`.repeat(i2 + 1), false));
}

const defaultFallback = createSimpleExpression(`undefined`, false);
const trackSlotScopes = (node, context) => {
  if (node.type === 1 && (node.tagType === 1 || node.tagType === 3)) {
    const vSlot = findDir(node, "slot");
    if (vSlot) {
      const slotProps = vSlot.exp;
      if (context.prefixIdentifiers) {
        slotProps && context.addIdentifiers(slotProps);
      }
      context.scopes.vSlot++;
      return () => {
        if (context.prefixIdentifiers) {
          slotProps && context.removeIdentifiers(slotProps);
        }
        context.scopes.vSlot--;
      };
    }
  }
};
const trackVForSlotScopes = (node, context) => {
  let vFor;
  if (isTemplateNode(node) && node.props.some(isVSlot) && (vFor = findDir(node, "for"))) {
    const result = vFor.parseResult = parseForExpression(
      vFor.exp,
      context
    );
    if (result) {
      const { value, key, index } = result;
      const { addIdentifiers, removeIdentifiers } = context;
      value && addIdentifiers(value);
      key && addIdentifiers(key);
      index && addIdentifiers(index);
      return () => {
        value && removeIdentifiers(value);
        key && removeIdentifiers(key);
        index && removeIdentifiers(index);
      };
    }
  }
};
const buildClientSlotFn = (props, children, loc) => createFunctionExpression(
  props,
  children,
  false,
  true,
  children.length ? children[0].loc : loc
);
function buildSlots(node, context, buildSlotFn = buildClientSlotFn) {
  context.helper(WITH_CTX);
  const { children, loc } = node;
  const slotsProperties = [];
  const dynamicSlots = [];
  let hasDynamicSlots = context.scopes.vSlot > 0 || context.scopes.vFor > 0;
  if (!context.ssr && context.prefixIdentifiers) {
    hasDynamicSlots = hasScopeRef(node, context.identifiers);
  }
  const onComponentSlot = findDir(node, "slot", true);
  if (onComponentSlot) {
    const { arg, exp } = onComponentSlot;
    if (arg && !isStaticExp(arg)) {
      hasDynamicSlots = true;
    }
    slotsProperties.push(
      createObjectProperty(
        arg || createSimpleExpression("default", true),
        buildSlotFn(exp, children, loc)
      )
    );
  }
  let hasTemplateSlots = false;
  let hasNamedDefaultSlot = false;
  const implicitDefaultChildren = [];
  const seenSlotNames = /* @__PURE__ */ new Set();
  let conditionalBranchIndex = 0;
  for (let i = 0; i < children.length; i++) {
    const slotElement = children[i];
    let slotDir;
    if (!isTemplateNode(slotElement) || !(slotDir = findDir(slotElement, "slot", true))) {
      if (slotElement.type !== 3) {
        implicitDefaultChildren.push(slotElement);
      }
      continue;
    }
    if (onComponentSlot) {
      context.onError(
        createCompilerError(37, slotDir.loc)
      );
      break;
    }
    hasTemplateSlots = true;
    const { children: slotChildren, loc: slotLoc } = slotElement;
    const {
      arg: slotName = createSimpleExpression(`default`, true),
      exp: slotProps,
      loc: dirLoc
    } = slotDir;
    let staticSlotName;
    if (isStaticExp(slotName)) {
      staticSlotName = slotName ? slotName.content : `default`;
    } else {
      hasDynamicSlots = true;
    }
    const slotFunction = buildSlotFn(slotProps, slotChildren, slotLoc);
    let vIf;
    let vElse;
    let vFor;
    if (vIf = findDir(slotElement, "if")) {
      hasDynamicSlots = true;
      dynamicSlots.push(
        createConditionalExpression(
          vIf.exp,
          buildDynamicSlot(slotName, slotFunction, conditionalBranchIndex++),
          defaultFallback
        )
      );
    } else if (vElse = findDir(
      slotElement,
      /^else(-if)?$/,
      true
      /* allowEmpty */
    )) {
      let j = i;
      let prev;
      while (j--) {
        prev = children[j];
        if (prev.type !== 3) {
          break;
        }
      }
      if (prev && isTemplateNode(prev) && findDir(prev, "if")) {
        children.splice(i, 1);
        i--;
        let conditional = dynamicSlots[dynamicSlots.length - 1];
        while (conditional.alternate.type === 19) {
          conditional = conditional.alternate;
        }
        conditional.alternate = vElse.exp ? createConditionalExpression(
          vElse.exp,
          buildDynamicSlot(
            slotName,
            slotFunction,
            conditionalBranchIndex++
          ),
          defaultFallback
        ) : buildDynamicSlot(slotName, slotFunction, conditionalBranchIndex++);
      } else {
        context.onError(
          createCompilerError(30, vElse.loc)
        );
      }
    } else if (vFor = findDir(slotElement, "for")) {
      hasDynamicSlots = true;
      const parseResult = vFor.parseResult || parseForExpression(vFor.exp, context);
      if (parseResult) {
        dynamicSlots.push(
          createCallExpression(context.helper(RENDER_LIST), [
            parseResult.source,
            createFunctionExpression(
              createForLoopParams(parseResult),
              buildDynamicSlot(slotName, slotFunction),
              true
              /* force newline */
            )
          ])
        );
      } else {
        context.onError(
          createCompilerError(32, vFor.loc)
        );
      }
    } else {
      if (staticSlotName) {
        if (seenSlotNames.has(staticSlotName)) {
          context.onError(
            createCompilerError(
              38,
              dirLoc
            )
          );
          continue;
        }
        seenSlotNames.add(staticSlotName);
        if (staticSlotName === "default") {
          hasNamedDefaultSlot = true;
        }
      }
      slotsProperties.push(createObjectProperty(slotName, slotFunction));
    }
  }
  if (!onComponentSlot) {
    const buildDefaultSlotProperty = (props, children2) => {
      const fn = buildSlotFn(props, children2, loc);
      return createObjectProperty(`default`, fn);
    };
    if (!hasTemplateSlots) {
      slotsProperties.push(buildDefaultSlotProperty(void 0, children));
    } else if (implicitDefaultChildren.length && // #3766
    // with whitespace: 'preserve', whitespaces between slots will end up in
    // implicitDefaultChildren. Ignore if all implicit children are whitespaces.
    implicitDefaultChildren.some((node2) => isNonWhitespaceContent(node2))) {
      if (hasNamedDefaultSlot) {
        context.onError(
          createCompilerError(
            39,
            implicitDefaultChildren[0].loc
          )
        );
      } else {
        slotsProperties.push(
          buildDefaultSlotProperty(void 0, implicitDefaultChildren)
        );
      }
    }
  }
  const slotFlag = hasDynamicSlots ? 2 : hasForwardedSlots(node.children) ? 3 : 1;
  let slots = createObjectExpression(
    slotsProperties.concat(
      createObjectProperty(
        `_`,
        // 2 = compiled but dynamic = can skip normalization, but must run diff
        // 1 = compiled and static = can skip normalization AND diff as optimized
        createSimpleExpression(
          slotFlag + (` /* ${slotFlagsText[slotFlag]} */` ),
          false
        )
      )
    ),
    loc
  );
  if (dynamicSlots.length) {
    slots = createCallExpression(context.helper(CREATE_SLOTS), [
      slots,
      createArrayExpression(dynamicSlots)
    ]);
  }
  return {
    slots,
    hasDynamicSlots
  };
}
function buildDynamicSlot(name, fn, index) {
  const props = [
    createObjectProperty(`name`, name),
    createObjectProperty(`fn`, fn)
  ];
  if (index != null) {
    props.push(
      createObjectProperty(`key`, createSimpleExpression(String(index), true))
    );
  }
  return createObjectExpression(props);
}
function hasForwardedSlots(children) {
  for (let i = 0; i < children.length; i++) {
    const child = children[i];
    switch (child.type) {
      case 1:
        if (child.tagType === 2 || hasForwardedSlots(child.children)) {
          return true;
        }
        break;
      case 9:
        if (hasForwardedSlots(child.branches))
          return true;
        break;
      case 10:
      case 11:
        if (hasForwardedSlots(child.children))
          return true;
        break;
    }
  }
  return false;
}
function isNonWhitespaceContent(node) {
  if (node.type !== 2 && node.type !== 12)
    return true;
  return node.type === 2 ? !!node.content.trim() : isNonWhitespaceContent(node.content);
}

const directiveImportMap = /* @__PURE__ */ new WeakMap();
const transformElement = (node, context) => {
  return function postTransformElement() {
    node = context.currentNode;
    if (!(node.type === 1 && (node.tagType === 0 || node.tagType === 1))) {
      return;
    }
    const { tag, props } = node;
    const isComponent = node.tagType === 1;
    let vnodeTag = isComponent ? resolveComponentType(node, context) : `"${tag}"`;
    const isDynamicComponent = isObject$2(vnodeTag) && vnodeTag.callee === RESOLVE_DYNAMIC_COMPONENT;
    let vnodeProps;
    let vnodeChildren;
    let vnodePatchFlag;
    let patchFlag = 0;
    let vnodeDynamicProps;
    let dynamicPropNames;
    let vnodeDirectives;
    let shouldUseBlock = (
      // dynamic component may resolve to plain elements
      isDynamicComponent || vnodeTag === TELEPORT || vnodeTag === SUSPENSE || !isComponent && // <svg> and <foreignObject> must be forced into blocks so that block
      // updates inside get proper isSVG flag at runtime. (#639, #643)
      // This is technically web-specific, but splitting the logic out of core
      // leads to too much unnecessary complexity.
      (tag === "svg" || tag === "foreignObject")
    );
    if (props.length > 0) {
      const propsBuildResult = buildProps(
        node,
        context,
        void 0,
        isComponent,
        isDynamicComponent
      );
      vnodeProps = propsBuildResult.props;
      patchFlag = propsBuildResult.patchFlag;
      dynamicPropNames = propsBuildResult.dynamicPropNames;
      const directives = propsBuildResult.directives;
      vnodeDirectives = directives && directives.length ? createArrayExpression(
        directives.map((dir) => buildDirectiveArgs(dir, context))
      ) : void 0;
      if (propsBuildResult.shouldUseBlock) {
        shouldUseBlock = true;
      }
    }
    if (node.children.length > 0) {
      if (vnodeTag === KEEP_ALIVE) {
        shouldUseBlock = true;
        patchFlag |= 1024;
        if (node.children.length > 1) {
          context.onError(
            createCompilerError(46, {
              start: node.children[0].loc.start,
              end: node.children[node.children.length - 1].loc.end,
              source: ""
            })
          );
        }
      }
      const shouldBuildAsSlots = isComponent && // Teleport is not a real component and has dedicated runtime handling
      vnodeTag !== TELEPORT && // explained above.
      vnodeTag !== KEEP_ALIVE;
      if (shouldBuildAsSlots) {
        const { slots, hasDynamicSlots } = buildSlots(node, context);
        vnodeChildren = slots;
        if (hasDynamicSlots) {
          patchFlag |= 1024;
        }
      } else if (node.children.length === 1 && vnodeTag !== TELEPORT) {
        const child = node.children[0];
        const type = child.type;
        const hasDynamicTextChild = type === 5 || type === 8;
        if (hasDynamicTextChild && getConstantType(child, context) === 0) {
          patchFlag |= 1;
        }
        if (hasDynamicTextChild || type === 2) {
          vnodeChildren = child;
        } else {
          vnodeChildren = node.children;
        }
      } else {
        vnodeChildren = node.children;
      }
    }
    if (patchFlag !== 0) {
      {
        if (patchFlag < 0) {
          vnodePatchFlag = patchFlag + ` /* ${PatchFlagNames[patchFlag]} */`;
        } else {
          const flagNames = Object.keys(PatchFlagNames).map(Number).filter((n) => n > 0 && patchFlag & n).map((n) => PatchFlagNames[n]).join(`, `);
          vnodePatchFlag = patchFlag + ` /* ${flagNames} */`;
        }
      }
      if (dynamicPropNames && dynamicPropNames.length) {
        vnodeDynamicProps = stringifyDynamicPropNames(dynamicPropNames);
      }
    }
    node.codegenNode = createVNodeCall(
      context,
      vnodeTag,
      vnodeProps,
      vnodeChildren,
      vnodePatchFlag,
      vnodeDynamicProps,
      vnodeDirectives,
      !!shouldUseBlock,
      false,
      isComponent,
      node.loc
    );
  };
};
function resolveComponentType(node, context, ssr = false) {
  let { tag } = node;
  const isExplicitDynamic = isComponentTag(tag);
  const isProp = findProp(node, "is");
  if (isProp) {
    if (isExplicitDynamic || false) {
      const exp = isProp.type === 6 ? isProp.value && createSimpleExpression(isProp.value.content, true) : isProp.exp;
      if (exp) {
        return createCallExpression(context.helper(RESOLVE_DYNAMIC_COMPONENT), [
          exp
        ]);
      }
    } else if (isProp.type === 6 && isProp.value.content.startsWith("vue:")) {
      tag = isProp.value.content.slice(4);
    }
  }
  const isDir = !isExplicitDynamic && findDir(node, "is");
  if (isDir && isDir.exp) {
    {
      context.onWarn(
        createCompilerError(52, isDir.loc)
      );
    }
    return createCallExpression(context.helper(RESOLVE_DYNAMIC_COMPONENT), [
      isDir.exp
    ]);
  }
  const builtIn = isCoreComponent(tag) || context.isBuiltInComponent(tag);
  if (builtIn) {
    if (!ssr)
      context.helper(builtIn);
    return builtIn;
  }
  {
    const fromSetup = resolveSetupReference(tag, context);
    if (fromSetup) {
      return fromSetup;
    }
    const dotIndex = tag.indexOf(".");
    if (dotIndex > 0) {
      const ns = resolveSetupReference(tag.slice(0, dotIndex), context);
      if (ns) {
        return ns + tag.slice(dotIndex);
      }
    }
  }
  if (context.selfName && capitalize$1(camelize(tag)) === context.selfName) {
    context.helper(RESOLVE_COMPONENT);
    context.components.add(tag + `__self`);
    return toValidAssetId(tag, `component`);
  }
  context.helper(RESOLVE_COMPONENT);
  context.components.add(tag);
  return toValidAssetId(tag, `component`);
}
function resolveSetupReference(name, context) {
  const bindings = context.bindingMetadata;
  if (!bindings || bindings.__isScriptSetup === false) {
    return;
  }
  const camelName = camelize(name);
  const PascalName = capitalize$1(camelName);
  const checkType = (type) => {
    if (bindings[name] === type) {
      return name;
    }
    if (bindings[camelName] === type) {
      return camelName;
    }
    if (bindings[PascalName] === type) {
      return PascalName;
    }
  };
  const fromConst = checkType("setup-const") || checkType("setup-reactive-const") || checkType("literal-const");
  if (fromConst) {
    return context.inline ? (
      // in inline mode, const setup bindings (e.g. imports) can be used as-is
      fromConst
    ) : `$setup[${JSON.stringify(fromConst)}]`;
  }
  const fromMaybeRef = checkType("setup-let") || checkType("setup-ref") || checkType("setup-maybe-ref");
  if (fromMaybeRef) {
    return context.inline ? (
      // setup scope bindings that may be refs need to be unrefed
      `${context.helperString(UNREF)}(${fromMaybeRef})`
    ) : `$setup[${JSON.stringify(fromMaybeRef)}]`;
  }
}
function buildProps(node, context, props = node.props, isComponent, isDynamicComponent, ssr = false) {
  const { tag, loc: elementLoc, children } = node;
  let properties = [];
  const mergeArgs = [];
  const runtimeDirectives = [];
  const hasChildren = children.length > 0;
  let shouldUseBlock = false;
  let patchFlag = 0;
  let hasRef = false;
  let hasClassBinding = false;
  let hasStyleBinding = false;
  let hasHydrationEventBinding = false;
  let hasDynamicKeys = false;
  let hasVnodeHook = false;
  const dynamicPropNames = [];
  const pushMergeArg = (arg) => {
    if (properties.length) {
      mergeArgs.push(
        createObjectExpression(dedupeProperties(properties), elementLoc)
      );
      properties = [];
    }
    if (arg)
      mergeArgs.push(arg);
  };
  const analyzePatchFlag = ({ key, value }) => {
    if (isStaticExp(key)) {
      const name = key.content;
      const isEventHandler = isOn(name);
      if (isEventHandler && (!isComponent || isDynamicComponent) && // omit the flag for click handlers because hydration gives click
      // dedicated fast path.
      name.toLowerCase() !== "onclick" && // omit v-model handlers
      name !== "onUpdate:modelValue" && // omit onVnodeXXX hooks
      !isReservedProp(name)) {
        hasHydrationEventBinding = true;
      }
      if (isEventHandler && isReservedProp(name)) {
        hasVnodeHook = true;
      }
      if (value.type === 20 || (value.type === 4 || value.type === 8) && getConstantType(value, context) > 0) {
        return;
      }
      if (name === "ref") {
        hasRef = true;
      } else if (name === "class") {
        hasClassBinding = true;
      } else if (name === "style") {
        hasStyleBinding = true;
      } else if (name !== "key" && !dynamicPropNames.includes(name)) {
        dynamicPropNames.push(name);
      }
      if (isComponent && (name === "class" || name === "style") && !dynamicPropNames.includes(name)) {
        dynamicPropNames.push(name);
      }
    } else {
      hasDynamicKeys = true;
    }
  };
  for (let i = 0; i < props.length; i++) {
    const prop = props[i];
    if (prop.type === 6) {
      const { loc, name, value } = prop;
      let isStatic = true;
      if (name === "ref") {
        hasRef = true;
        if (context.scopes.vFor > 0) {
          properties.push(
            createObjectProperty(
              createSimpleExpression("ref_for", true),
              createSimpleExpression("true")
            )
          );
        }
        if (value && context.inline) {
          const binding = context.bindingMetadata[value.content];
          if (binding === "setup-let" || binding === "setup-ref" || binding === "setup-maybe-ref") {
            isStatic = false;
            properties.push(
              createObjectProperty(
                createSimpleExpression("ref_key", true),
                createSimpleExpression(value.content, true, value.loc)
              )
            );
          }
        }
      }
      if (name === "is" && (isComponentTag(tag) || value && value.content.startsWith("vue:") || false)) {
        continue;
      }
      properties.push(
        createObjectProperty(
          createSimpleExpression(
            name,
            true,
            getInnerRange(loc, 0, name.length)
          ),
          createSimpleExpression(
            value ? value.content : "",
            isStatic,
            value ? value.loc : loc
          )
        )
      );
    } else {
      const { name, arg, exp, loc } = prop;
      const isVBind = name === "bind";
      const isVOn = name === "on";
      if (name === "slot") {
        if (!isComponent) {
          context.onError(
            createCompilerError(40, loc)
          );
        }
        continue;
      }
      if (name === "once" || name === "memo") {
        continue;
      }
      if (name === "is" || isVBind && isStaticArgOf(arg, "is") && (isComponentTag(tag) || false)) {
        continue;
      }
      if (isVOn && ssr) {
        continue;
      }
      if (
        // #938: elements with dynamic keys should be forced into blocks
        isVBind && isStaticArgOf(arg, "key") || // inline before-update hooks need to force block so that it is invoked
        // before children
        isVOn && hasChildren && isStaticArgOf(arg, "vue:before-update")
      ) {
        shouldUseBlock = true;
      }
      if (isVBind && isStaticArgOf(arg, "ref") && context.scopes.vFor > 0) {
        properties.push(
          createObjectProperty(
            createSimpleExpression("ref_for", true),
            createSimpleExpression("true")
          )
        );
      }
      if (!arg && (isVBind || isVOn)) {
        hasDynamicKeys = true;
        if (exp) {
          if (isVBind) {
            pushMergeArg();
            mergeArgs.push(exp);
          } else {
            pushMergeArg({
              type: 14,
              loc,
              callee: context.helper(TO_HANDLERS),
              arguments: isComponent ? [exp] : [exp, `true`]
            });
          }
        } else {
          context.onError(
            createCompilerError(
              isVBind ? 34 : 35,
              loc
            )
          );
        }
        continue;
      }
      const directiveTransform = context.directiveTransforms[name];
      if (directiveTransform) {
        const { props: props2, needRuntime } = directiveTransform(prop, node, context);
        !ssr && props2.forEach(analyzePatchFlag);
        if (isVOn && arg && !isStaticExp(arg)) {
          pushMergeArg(createObjectExpression(props2, elementLoc));
        } else {
          properties.push(...props2);
        }
        if (needRuntime) {
          runtimeDirectives.push(prop);
          if (isSymbol$1(needRuntime)) {
            directiveImportMap.set(prop, needRuntime);
          }
        }
      } else if (!isBuiltInDirective(name)) {
        runtimeDirectives.push(prop);
        if (hasChildren) {
          shouldUseBlock = true;
        }
      }
    }
  }
  let propsExpression = void 0;
  if (mergeArgs.length) {
    pushMergeArg();
    if (mergeArgs.length > 1) {
      propsExpression = createCallExpression(
        context.helper(MERGE_PROPS),
        mergeArgs,
        elementLoc
      );
    } else {
      propsExpression = mergeArgs[0];
    }
  } else if (properties.length) {
    propsExpression = createObjectExpression(
      dedupeProperties(properties),
      elementLoc
    );
  }
  if (hasDynamicKeys) {
    patchFlag |= 16;
  } else {
    if (hasClassBinding && !isComponent) {
      patchFlag |= 2;
    }
    if (hasStyleBinding && !isComponent) {
      patchFlag |= 4;
    }
    if (dynamicPropNames.length) {
      patchFlag |= 8;
    }
    if (hasHydrationEventBinding) {
      patchFlag |= 32;
    }
  }
  if (!shouldUseBlock && (patchFlag === 0 || patchFlag === 32) && (hasRef || hasVnodeHook || runtimeDirectives.length > 0)) {
    patchFlag |= 512;
  }
  if (!context.inSSR && propsExpression) {
    switch (propsExpression.type) {
      case 15:
        let classKeyIndex = -1;
        let styleKeyIndex = -1;
        let hasDynamicKey = false;
        for (let i = 0; i < propsExpression.properties.length; i++) {
          const key = propsExpression.properties[i].key;
          if (isStaticExp(key)) {
            if (key.content === "class") {
              classKeyIndex = i;
            } else if (key.content === "style") {
              styleKeyIndex = i;
            }
          } else if (!key.isHandlerKey) {
            hasDynamicKey = true;
          }
        }
        const classProp = propsExpression.properties[classKeyIndex];
        const styleProp = propsExpression.properties[styleKeyIndex];
        if (!hasDynamicKey) {
          if (classProp && !isStaticExp(classProp.value)) {
            classProp.value = createCallExpression(
              context.helper(NORMALIZE_CLASS),
              [classProp.value]
            );
          }
          if (styleProp && // the static style is compiled into an object,
          // so use `hasStyleBinding` to ensure that it is a dynamic style binding
          (hasStyleBinding || styleProp.value.type === 4 && styleProp.value.content.trim()[0] === `[` || // v-bind:style and style both exist,
          // v-bind:style with static literal object
          styleProp.value.type === 17)) {
            styleProp.value = createCallExpression(
              context.helper(NORMALIZE_STYLE),
              [styleProp.value]
            );
          }
        } else {
          propsExpression = createCallExpression(
            context.helper(NORMALIZE_PROPS),
            [propsExpression]
          );
        }
        break;
      case 14:
        break;
      default:
        propsExpression = createCallExpression(
          context.helper(NORMALIZE_PROPS),
          [
            createCallExpression(context.helper(GUARD_REACTIVE_PROPS), [
              propsExpression
            ])
          ]
        );
        break;
    }
  }
  return {
    props: propsExpression,
    directives: runtimeDirectives,
    patchFlag,
    dynamicPropNames,
    shouldUseBlock
  };
}
function dedupeProperties(properties) {
  const knownProps = /* @__PURE__ */ new Map();
  const deduped = [];
  for (let i = 0; i < properties.length; i++) {
    const prop = properties[i];
    if (prop.key.type === 8 || !prop.key.isStatic) {
      deduped.push(prop);
      continue;
    }
    const name = prop.key.content;
    const existing = knownProps.get(name);
    if (existing) {
      if (name === "style" || name === "class" || isOn(name)) {
        mergeAsArray(existing, prop);
      }
    } else {
      knownProps.set(name, prop);
      deduped.push(prop);
    }
  }
  return deduped;
}
function mergeAsArray(existing, incoming) {
  if (existing.value.type === 17) {
    existing.value.elements.push(incoming.value);
  } else {
    existing.value = createArrayExpression(
      [existing.value, incoming.value],
      existing.loc
    );
  }
}
function buildDirectiveArgs(dir, context) {
  const dirArgs = [];
  const runtime = directiveImportMap.get(dir);
  if (runtime) {
    dirArgs.push(context.helperString(runtime));
  } else {
    const fromSetup = resolveSetupReference("v-" + dir.name, context);
    if (fromSetup) {
      dirArgs.push(fromSetup);
    } else {
      context.helper(RESOLVE_DIRECTIVE);
      context.directives.add(dir.name);
      dirArgs.push(toValidAssetId(dir.name, `directive`));
    }
  }
  const { loc } = dir;
  if (dir.exp)
    dirArgs.push(dir.exp);
  if (dir.arg) {
    if (!dir.exp) {
      dirArgs.push(`void 0`);
    }
    dirArgs.push(dir.arg);
  }
  if (Object.keys(dir.modifiers).length) {
    if (!dir.arg) {
      if (!dir.exp) {
        dirArgs.push(`void 0`);
      }
      dirArgs.push(`void 0`);
    }
    const trueExpression = createSimpleExpression(`true`, false, loc);
    dirArgs.push(
      createObjectExpression(
        dir.modifiers.map(
          (modifier) => createObjectProperty(modifier, trueExpression)
        ),
        loc
      )
    );
  }
  return createArrayExpression(dirArgs, dir.loc);
}
function stringifyDynamicPropNames(props) {
  let propsNamesString = `[`;
  for (let i = 0, l = props.length; i < l; i++) {
    propsNamesString += JSON.stringify(props[i]);
    if (i < l - 1)
      propsNamesString += ", ";
  }
  return propsNamesString + `]`;
}
function isComponentTag(tag) {
  return tag === "component" || tag === "Component";
}

const transformSlotOutlet = (node, context) => {
  if (isSlotOutlet(node)) {
    const { children, loc } = node;
    const { slotName, slotProps } = processSlotOutlet(node, context);
    const slotArgs = [
      context.prefixIdentifiers ? `_ctx.$slots` : `$slots`,
      slotName,
      "{}",
      "undefined",
      "true"
    ];
    let expectedLen = 2;
    if (slotProps) {
      slotArgs[2] = slotProps;
      expectedLen = 3;
    }
    if (children.length) {
      slotArgs[3] = createFunctionExpression([], children, false, false, loc);
      expectedLen = 4;
    }
    if (context.scopeId && !context.slotted) {
      expectedLen = 5;
    }
    slotArgs.splice(expectedLen);
    node.codegenNode = createCallExpression(
      context.helper(RENDER_SLOT),
      slotArgs,
      loc
    );
  }
};
function processSlotOutlet(node, context) {
  let slotName = `"default"`;
  let slotProps = void 0;
  const nonNameProps = [];
  for (let i = 0; i < node.props.length; i++) {
    const p = node.props[i];
    if (p.type === 6) {
      if (p.value) {
        if (p.name === "name") {
          slotName = JSON.stringify(p.value.content);
        } else {
          p.name = camelize(p.name);
          nonNameProps.push(p);
        }
      }
    } else {
      if (p.name === "bind" && isStaticArgOf(p.arg, "name")) {
        if (p.exp)
          slotName = p.exp;
      } else {
        if (p.name === "bind" && p.arg && isStaticExp(p.arg)) {
          p.arg.content = camelize(p.arg.content);
        }
        nonNameProps.push(p);
      }
    }
  }
  if (nonNameProps.length > 0) {
    const { props, directives } = buildProps(
      node,
      context,
      nonNameProps,
      false,
      false
    );
    slotProps = props;
    if (directives.length) {
      context.onError(
        createCompilerError(
          36,
          directives[0].loc
        )
      );
    }
  }
  return {
    slotName,
    slotProps
  };
}

const fnExpRE = /^\s*([\w$_]+|(async\s*)?\([^)]*?\))\s*(:[^=]+)?=>|^\s*(async\s+)?function(?:\s+[\w$]+)?\s*\(/;
const transformOn$1 = (dir, node, context, augmentor) => {
  const { loc, modifiers, arg } = dir;
  if (!dir.exp && !modifiers.length) {
    context.onError(createCompilerError(35, loc));
  }
  let eventName;
  if (arg.type === 4) {
    if (arg.isStatic) {
      let rawName = arg.content;
      if (rawName.startsWith("vnode")) {
        context.onWarn(
          createCompilerError(51, arg.loc)
        );
      }
      if (rawName.startsWith("vue:")) {
        rawName = `vnode-${rawName.slice(4)}`;
      }
      const eventString = node.tagType !== 0 || rawName.startsWith("vnode") || !/[A-Z]/.test(rawName) ? (
        // for non-element and vnode lifecycle event listeners, auto convert
        // it to camelCase. See issue #2249
        toHandlerKey(camelize(rawName))
      ) : (
        // preserve case for plain element listeners that have uppercase
        // letters, as these may be custom elements' custom events
        `on:${rawName}`
      );
      eventName = createSimpleExpression(eventString, true, arg.loc);
    } else {
      eventName = createCompoundExpression([
        `${context.helperString(TO_HANDLER_KEY)}(`,
        arg,
        `)`
      ]);
    }
  } else {
    eventName = arg;
    eventName.children.unshift(`${context.helperString(TO_HANDLER_KEY)}(`);
    eventName.children.push(`)`);
  }
  let exp = dir.exp;
  if (exp && !exp.content.trim()) {
    exp = void 0;
  }
  let shouldCache = context.cacheHandlers && !exp && !context.inVOnce;
  if (exp) {
    const isMemberExp = isMemberExpression(exp.content, context);
    const isInlineStatement = !(isMemberExp || fnExpRE.test(exp.content));
    const hasMultipleStatements = exp.content.includes(`;`);
    if (context.prefixIdentifiers) {
      isInlineStatement && context.addIdentifiers(`$event`);
      exp = dir.exp = processExpression(
        exp,
        context,
        false,
        hasMultipleStatements
      );
      isInlineStatement && context.removeIdentifiers(`$event`);
      shouldCache = context.cacheHandlers && // unnecessary to cache inside v-once
      !context.inVOnce && // runtime constants don't need to be cached
      // (this is analyzed by compileScript in SFC <script setup>)
      !(exp.type === 4 && exp.constType > 0) && // #1541 bail if this is a member exp handler passed to a component -
      // we need to use the original function to preserve arity,
      // e.g. <transition> relies on checking cb.length to determine
      // transition end handling. Inline function is ok since its arity
      // is preserved even when cached.
      !(isMemberExp && node.tagType === 1) && // bail if the function references closure variables (v-for, v-slot)
      // it must be passed fresh to avoid stale values.
      !hasScopeRef(exp, context.identifiers);
      if (shouldCache && isMemberExp) {
        if (exp.type === 4) {
          exp.content = `${exp.content} && ${exp.content}(...args)`;
        } else {
          exp.children = [...exp.children, ` && `, ...exp.children, `(...args)`];
        }
      }
    }
    if (isInlineStatement || shouldCache && isMemberExp) {
      exp = createCompoundExpression([
        `${isInlineStatement ? context.isTS ? `($event: any)` : `$event` : `${context.isTS ? `
//@ts-ignore
` : ``}(...args)`} => ${hasMultipleStatements ? `{` : `(`}`,
        exp,
        hasMultipleStatements ? `}` : `)`
      ]);
    }
  }
  let ret = {
    props: [
      createObjectProperty(
        eventName,
        exp || createSimpleExpression(`() => {}`, false, loc)
      )
    ]
  };
  if (augmentor) {
    ret = augmentor(ret);
  }
  if (shouldCache) {
    ret.props[0].value = context.cache(ret.props[0].value);
  }
  ret.props.forEach((p) => p.key.isHandlerKey = true);
  return ret;
};

const transformBind = (dir, _node, context) => {
  const { exp, modifiers, loc } = dir;
  const arg = dir.arg;
  if (arg.type !== 4) {
    arg.children.unshift(`(`);
    arg.children.push(`) || ""`);
  } else if (!arg.isStatic) {
    arg.content = `${arg.content} || ""`;
  }
  if (modifiers.includes("camel")) {
    if (arg.type === 4) {
      if (arg.isStatic) {
        arg.content = camelize(arg.content);
      } else {
        arg.content = `${context.helperString(CAMELIZE)}(${arg.content})`;
      }
    } else {
      arg.children.unshift(`${context.helperString(CAMELIZE)}(`);
      arg.children.push(`)`);
    }
  }
  if (!context.inSSR) {
    if (modifiers.includes("prop")) {
      injectPrefix(arg, ".");
    }
    if (modifiers.includes("attr")) {
      injectPrefix(arg, "^");
    }
  }
  if (!exp || exp.type === 4 && !exp.content.trim()) {
    context.onError(createCompilerError(34, loc));
    return {
      props: [createObjectProperty(arg, createSimpleExpression("", true, loc))]
    };
  }
  return {
    props: [createObjectProperty(arg, exp)]
  };
};
const injectPrefix = (arg, prefix) => {
  if (arg.type === 4) {
    if (arg.isStatic) {
      arg.content = prefix + arg.content;
    } else {
      arg.content = `\`${prefix}\${${arg.content}}\``;
    }
  } else {
    arg.children.unshift(`'${prefix}' + (`);
    arg.children.push(`)`);
  }
};

const transformText = (node, context) => {
  if (node.type === 0 || node.type === 1 || node.type === 11 || node.type === 10) {
    return () => {
      const children = node.children;
      let currentContainer = void 0;
      let hasText = false;
      for (let i = 0; i < children.length; i++) {
        const child = children[i];
        if (isText$1(child)) {
          hasText = true;
          for (let j = i + 1; j < children.length; j++) {
            const next = children[j];
            if (isText$1(next)) {
              if (!currentContainer) {
                currentContainer = children[i] = createCompoundExpression(
                  [child],
                  child.loc
                );
              }
              currentContainer.children.push(` + `, next);
              children.splice(j, 1);
              j--;
            } else {
              currentContainer = void 0;
              break;
            }
          }
        }
      }
      if (!hasText || // if this is a plain element with a single text child, leave it
      // as-is since the runtime has dedicated fast path for this by directly
      // setting textContent of the element.
      // for component root it's always normalized anyway.
      children.length === 1 && (node.type === 0 || node.type === 1 && node.tagType === 0 && // #3756
      // custom directives can potentially add DOM elements arbitrarily,
      // we need to avoid setting textContent of the element at runtime
      // to avoid accidentally overwriting the DOM elements added
      // by the user through custom directives.
      !node.props.find(
        (p) => p.type === 7 && !context.directiveTransforms[p.name]
      ) && // in compat mode, <template> tags with no special directives
      // will be rendered as a fragment so its children must be
      // converted into vnodes.
      true)) {
        return;
      }
      for (let i = 0; i < children.length; i++) {
        const child = children[i];
        if (isText$1(child) || child.type === 8) {
          const callArgs = [];
          if (child.type !== 2 || child.content !== " ") {
            callArgs.push(child);
          }
          if (!context.ssr && getConstantType(child, context) === 0) {
            callArgs.push(
              1 + (` /* ${PatchFlagNames[1]} */` )
            );
          }
          children[i] = {
            type: 12,
            content: child,
            loc: child.loc,
            codegenNode: createCallExpression(
              context.helper(CREATE_TEXT),
              callArgs
            )
          };
        }
      }
    };
  }
};

const seen$1 = /* @__PURE__ */ new WeakSet();
const transformOnce = (node, context) => {
  if (node.type === 1 && findDir(node, "once", true)) {
    if (seen$1.has(node) || context.inVOnce || context.inSSR) {
      return;
    }
    seen$1.add(node);
    context.inVOnce = true;
    context.helper(SET_BLOCK_TRACKING);
    return () => {
      context.inVOnce = false;
      const cur = context.currentNode;
      if (cur.codegenNode) {
        cur.codegenNode = context.cache(
          cur.codegenNode,
          true
          /* isVNode */
        );
      }
    };
  }
};

const transformModel$1 = (dir, node, context) => {
  const { exp, arg } = dir;
  if (!exp) {
    context.onError(
      createCompilerError(41, dir.loc)
    );
    return createTransformProps();
  }
  const rawExp = exp.loc.source;
  const expString = exp.type === 4 ? exp.content : rawExp;
  const bindingType = context.bindingMetadata[rawExp];
  if (bindingType === "props" || bindingType === "props-aliased") {
    context.onError(createCompilerError(44, exp.loc));
    return createTransformProps();
  }
  const maybeRef = context.inline && (bindingType === "setup-let" || bindingType === "setup-ref" || bindingType === "setup-maybe-ref");
  if (!expString.trim() || !isMemberExpression(expString, context) && !maybeRef) {
    context.onError(
      createCompilerError(42, exp.loc)
    );
    return createTransformProps();
  }
  if (context.prefixIdentifiers && isSimpleIdentifier(expString) && context.identifiers[expString]) {
    context.onError(
      createCompilerError(43, exp.loc)
    );
    return createTransformProps();
  }
  const propName = arg ? arg : createSimpleExpression("modelValue", true);
  const eventName = arg ? isStaticExp(arg) ? `onUpdate:${camelize(arg.content)}` : createCompoundExpression(['"onUpdate:" + ', arg]) : `onUpdate:modelValue`;
  let assignmentExp;
  const eventArg = context.isTS ? `($event: any)` : `$event`;
  if (maybeRef) {
    if (bindingType === "setup-ref") {
      assignmentExp = createCompoundExpression([
        `${eventArg} => ((`,
        createSimpleExpression(rawExp, false, exp.loc),
        `).value = $event)`
      ]);
    } else {
      const altAssignment = bindingType === "setup-let" ? `${rawExp} = $event` : `null`;
      assignmentExp = createCompoundExpression([
        `${eventArg} => (${context.helperString(IS_REF)}(${rawExp}) ? (`,
        createSimpleExpression(rawExp, false, exp.loc),
        `).value = $event : ${altAssignment})`
      ]);
    }
  } else {
    assignmentExp = createCompoundExpression([
      `${eventArg} => ((`,
      exp,
      `) = $event)`
    ]);
  }
  const props = [
    // modelValue: foo
    createObjectProperty(propName, dir.exp),
    // "onUpdate:modelValue": $event => (foo = $event)
    createObjectProperty(eventName, assignmentExp)
  ];
  if (context.prefixIdentifiers && !context.inVOnce && context.cacheHandlers && !hasScopeRef(exp, context.identifiers)) {
    props[1].value = context.cache(props[1].value);
  }
  if (dir.modifiers.length && node.tagType === 1) {
    const modifiers = dir.modifiers.map((m) => (isSimpleIdentifier(m) ? m : JSON.stringify(m)) + `: true`).join(`, `);
    const modifiersKey = arg ? isStaticExp(arg) ? `${arg.content}Modifiers` : createCompoundExpression([arg, ' + "Modifiers"']) : `modelModifiers`;
    props.push(
      createObjectProperty(
        modifiersKey,
        createSimpleExpression(
          `{ ${modifiers} }`,
          false,
          dir.loc,
          2
        )
      )
    );
  }
  return createTransformProps(props);
};
function createTransformProps(props = []) {
  return { props };
}

const seen = /* @__PURE__ */ new WeakSet();
const transformMemo = (node, context) => {
  if (node.type === 1) {
    const dir = findDir(node, "memo");
    if (!dir || seen.has(node)) {
      return;
    }
    seen.add(node);
    return () => {
      const codegenNode = node.codegenNode || context.currentNode.codegenNode;
      if (codegenNode && codegenNode.type === 13) {
        if (node.tagType !== 1) {
          convertToBlock(codegenNode, context);
        }
        node.codegenNode = createCallExpression(context.helper(WITH_MEMO), [
          dir.exp,
          createFunctionExpression(void 0, codegenNode),
          `_cache`,
          String(context.cached++)
        ]);
      }
    };
  }
};

function getBaseTransformPreset(prefixIdentifiers) {
  return [
    [
      transformOnce,
      transformIf,
      transformMemo,
      transformFor,
      ...[],
      ...prefixIdentifiers ? [
        // order is important
        trackVForSlotScopes,
        transformExpression
      ] : [],
      transformSlotOutlet,
      transformElement,
      trackSlotScopes,
      transformText
    ],
    {
      on: transformOn$1,
      bind: transformBind,
      model: transformModel$1
    }
  ];
}
function baseCompile(template, options = {}) {
  const onError = options.onError || defaultOnError;
  const isModuleMode = options.mode === "module";
  const prefixIdentifiers = options.prefixIdentifiers === true || isModuleMode;
  if (!prefixIdentifiers && options.cacheHandlers) {
    onError(createCompilerError(49));
  }
  if (options.scopeId && !isModuleMode) {
    onError(createCompilerError(50));
  }
  const ast = isString$2(template) ? baseParse(template, options) : template;
  const [nodeTransforms, directiveTransforms] = getBaseTransformPreset(prefixIdentifiers);
  if (options.isTS) {
    const { expressionPlugins } = options;
    if (!expressionPlugins || !expressionPlugins.includes("typescript")) {
      options.expressionPlugins = [...expressionPlugins || [], "typescript"];
    }
  }
  transform$1(
    ast,
    extend({}, options, {
      prefixIdentifiers,
      nodeTransforms: [
        ...nodeTransforms,
        ...options.nodeTransforms || []
        // user transforms
      ],
      directiveTransforms: extend(
        {},
        directiveTransforms,
        options.directiveTransforms || {}
        // user transforms
      )
    })
  );
  return generate(
    ast,
    extend({}, options, {
      prefixIdentifiers
    })
  );
}

const noopDirectiveTransform = () => ({ props: [] });

const V_MODEL_RADIO = Symbol(`vModelRadio` );
const V_MODEL_CHECKBOX = Symbol(`vModelCheckbox` );
const V_MODEL_TEXT = Symbol(`vModelText` );
const V_MODEL_SELECT = Symbol(`vModelSelect` );
const V_MODEL_DYNAMIC = Symbol(`vModelDynamic` );
const V_ON_WITH_MODIFIERS = Symbol(`vOnModifiersGuard` );
const V_ON_WITH_KEYS = Symbol(`vOnKeysGuard` );
const V_SHOW = Symbol(`vShow` );
const TRANSITION = Symbol(`Transition` );
const TRANSITION_GROUP = Symbol(`TransitionGroup` );
registerRuntimeHelpers({
  [V_MODEL_RADIO]: `vModelRadio`,
  [V_MODEL_CHECKBOX]: `vModelCheckbox`,
  [V_MODEL_TEXT]: `vModelText`,
  [V_MODEL_SELECT]: `vModelSelect`,
  [V_MODEL_DYNAMIC]: `vModelDynamic`,
  [V_ON_WITH_MODIFIERS]: `withModifiers`,
  [V_ON_WITH_KEYS]: `withKeys`,
  [V_SHOW]: `vShow`,
  [TRANSITION]: `Transition`,
  [TRANSITION_GROUP]: `TransitionGroup`
});

var namedCharacterReferences = {
	GT: ">",
	gt: ">",
	LT: "<",
	lt: "<",
	"ac;": "∾",
	"af;": "⁡",
	AMP: "&",
	amp: "&",
	"ap;": "≈",
	"DD;": "ⅅ",
	"dd;": "ⅆ",
	deg: "°",
	"ee;": "ⅇ",
	"eg;": "⪚",
	"el;": "⪙",
	ETH: "Ð",
	eth: "ð",
	"gE;": "≧",
	"ge;": "≥",
	"Gg;": "⋙",
	"gg;": "≫",
	"gl;": "≷",
	"GT;": ">",
	"Gt;": "≫",
	"gt;": ">",
	"ic;": "⁣",
	"ii;": "ⅈ",
	"Im;": "ℑ",
	"in;": "∈",
	"it;": "⁢",
	"lE;": "≦",
	"le;": "≤",
	"lg;": "≶",
	"Ll;": "⋘",
	"ll;": "≪",
	"LT;": "<",
	"Lt;": "≪",
	"lt;": "<",
	"mp;": "∓",
	"Mu;": "Μ",
	"mu;": "μ",
	"ne;": "≠",
	"ni;": "∋",
	not: "¬",
	"Nu;": "Ν",
	"nu;": "ν",
	"Or;": "⩔",
	"or;": "∨",
	"oS;": "Ⓢ",
	"Pi;": "Π",
	"pi;": "π",
	"pm;": "±",
	"Pr;": "⪻",
	"pr;": "≺",
	"Re;": "ℜ",
	REG: "®",
	reg: "®",
	"rx;": "℞",
	"Sc;": "⪼",
	"sc;": "≻",
	shy: "­",
	uml: "¨",
	"wp;": "℘",
	"wr;": "≀",
	"Xi;": "Ξ",
	"xi;": "ξ",
	yen: "¥",
	"acd;": "∿",
	"acE;": "∾̳",
	"Acy;": "А",
	"acy;": "а",
	"Afr;": "𝔄",
	"afr;": "𝔞",
	"AMP;": "&",
	"amp;": "&",
	"And;": "⩓",
	"and;": "∧",
	"ang;": "∠",
	"apE;": "⩰",
	"ape;": "≊",
	"ast;": "*",
	Auml: "Ä",
	auml: "ä",
	"Bcy;": "Б",
	"bcy;": "б",
	"Bfr;": "𝔅",
	"bfr;": "𝔟",
	"bne;": "=⃥",
	"bot;": "⊥",
	"Cap;": "⋒",
	"cap;": "∩",
	cent: "¢",
	"Cfr;": "ℭ",
	"cfr;": "𝔠",
	"Chi;": "Χ",
	"chi;": "χ",
	"cir;": "○",
	COPY: "©",
	copy: "©",
	"Cup;": "⋓",
	"cup;": "∪",
	"Dcy;": "Д",
	"dcy;": "д",
	"deg;": "°",
	"Del;": "∇",
	"Dfr;": "𝔇",
	"dfr;": "𝔡",
	"die;": "¨",
	"div;": "÷",
	"Dot;": "¨",
	"dot;": "˙",
	"Ecy;": "Э",
	"ecy;": "э",
	"Efr;": "𝔈",
	"efr;": "𝔢",
	"egs;": "⪖",
	"ell;": "ℓ",
	"els;": "⪕",
	"ENG;": "Ŋ",
	"eng;": "ŋ",
	"Eta;": "Η",
	"eta;": "η",
	"ETH;": "Ð",
	"eth;": "ð",
	Euml: "Ë",
	euml: "ë",
	"Fcy;": "Ф",
	"fcy;": "ф",
	"Ffr;": "𝔉",
	"ffr;": "𝔣",
	"gap;": "⪆",
	"Gcy;": "Г",
	"gcy;": "г",
	"gEl;": "⪌",
	"gel;": "⋛",
	"geq;": "≥",
	"ges;": "⩾",
	"Gfr;": "𝔊",
	"gfr;": "𝔤",
	"ggg;": "⋙",
	"gla;": "⪥",
	"glE;": "⪒",
	"glj;": "⪤",
	"gnE;": "≩",
	"gne;": "⪈",
	"Hat;": "^",
	"Hfr;": "ℌ",
	"hfr;": "𝔥",
	"Icy;": "И",
	"icy;": "и",
	"iff;": "⇔",
	"Ifr;": "ℑ",
	"ifr;": "𝔦",
	"Int;": "∬",
	"int;": "∫",
	Iuml: "Ï",
	iuml: "ï",
	"Jcy;": "Й",
	"jcy;": "й",
	"Jfr;": "𝔍",
	"jfr;": "𝔧",
	"Kcy;": "К",
	"kcy;": "к",
	"Kfr;": "𝔎",
	"kfr;": "𝔨",
	"lap;": "⪅",
	"lat;": "⪫",
	"Lcy;": "Л",
	"lcy;": "л",
	"lEg;": "⪋",
	"leg;": "⋚",
	"leq;": "≤",
	"les;": "⩽",
	"Lfr;": "𝔏",
	"lfr;": "𝔩",
	"lgE;": "⪑",
	"lnE;": "≨",
	"lne;": "⪇",
	"loz;": "◊",
	"lrm;": "‎",
	"Lsh;": "↰",
	"lsh;": "↰",
	macr: "¯",
	"Map;": "⤅",
	"map;": "↦",
	"Mcy;": "М",
	"mcy;": "м",
	"Mfr;": "𝔐",
	"mfr;": "𝔪",
	"mho;": "℧",
	"mid;": "∣",
	"nap;": "≉",
	nbsp: " ",
	"Ncy;": "Н",
	"ncy;": "н",
	"Nfr;": "𝔑",
	"nfr;": "𝔫",
	"ngE;": "≧̸",
	"nge;": "≱",
	"nGg;": "⋙̸",
	"nGt;": "≫⃒",
	"ngt;": "≯",
	"nis;": "⋼",
	"niv;": "∋",
	"nlE;": "≦̸",
	"nle;": "≰",
	"nLl;": "⋘̸",
	"nLt;": "≪⃒",
	"nlt;": "≮",
	"Not;": "⫬",
	"not;": "¬",
	"npr;": "⊀",
	"nsc;": "⊁",
	"num;": "#",
	"Ocy;": "О",
	"ocy;": "о",
	"Ofr;": "𝔒",
	"ofr;": "𝔬",
	"ogt;": "⧁",
	"ohm;": "Ω",
	"olt;": "⧀",
	"ord;": "⩝",
	ordf: "ª",
	ordm: "º",
	"orv;": "⩛",
	Ouml: "Ö",
	ouml: "ö",
	"par;": "∥",
	para: "¶",
	"Pcy;": "П",
	"pcy;": "п",
	"Pfr;": "𝔓",
	"pfr;": "𝔭",
	"Phi;": "Φ",
	"phi;": "φ",
	"piv;": "ϖ",
	"prE;": "⪳",
	"pre;": "⪯",
	"Psi;": "Ψ",
	"psi;": "ψ",
	"Qfr;": "𝔔",
	"qfr;": "𝔮",
	QUOT: "\"",
	quot: "\"",
	"Rcy;": "Р",
	"rcy;": "р",
	"REG;": "®",
	"reg;": "®",
	"Rfr;": "ℜ",
	"rfr;": "𝔯",
	"Rho;": "Ρ",
	"rho;": "ρ",
	"rlm;": "‏",
	"Rsh;": "↱",
	"rsh;": "↱",
	"scE;": "⪴",
	"sce;": "⪰",
	"Scy;": "С",
	"scy;": "с",
	sect: "§",
	"Sfr;": "𝔖",
	"sfr;": "𝔰",
	"shy;": "­",
	"sim;": "∼",
	"smt;": "⪪",
	"sol;": "/",
	"squ;": "□",
	"Sub;": "⋐",
	"sub;": "⊂",
	"Sum;": "∑",
	"sum;": "∑",
	"Sup;": "⋑",
	"sup;": "⊃",
	sup1: "¹",
	sup2: "²",
	sup3: "³",
	"Tab;": "\t",
	"Tau;": "Τ",
	"tau;": "τ",
	"Tcy;": "Т",
	"tcy;": "т",
	"Tfr;": "𝔗",
	"tfr;": "𝔱",
	"top;": "⊤",
	"Ucy;": "У",
	"ucy;": "у",
	"Ufr;": "𝔘",
	"ufr;": "𝔲",
	"uml;": "¨",
	Uuml: "Ü",
	uuml: "ü",
	"Vcy;": "В",
	"vcy;": "в",
	"Vee;": "⋁",
	"vee;": "∨",
	"Vfr;": "𝔙",
	"vfr;": "𝔳",
	"Wfr;": "𝔚",
	"wfr;": "𝔴",
	"Xfr;": "𝔛",
	"xfr;": "𝔵",
	"Ycy;": "Ы",
	"ycy;": "ы",
	"yen;": "¥",
	"Yfr;": "𝔜",
	"yfr;": "𝔶",
	yuml: "ÿ",
	"Zcy;": "З",
	"zcy;": "з",
	"Zfr;": "ℨ",
	"zfr;": "𝔷",
	"zwj;": "‍",
	Acirc: "Â",
	acirc: "â",
	acute: "´",
	AElig: "Æ",
	aelig: "æ",
	"andd;": "⩜",
	"andv;": "⩚",
	"ange;": "⦤",
	"Aopf;": "𝔸",
	"aopf;": "𝕒",
	"apid;": "≋",
	"apos;": "'",
	Aring: "Å",
	aring: "å",
	"Ascr;": "𝒜",
	"ascr;": "𝒶",
	"Auml;": "Ä",
	"auml;": "ä",
	"Barv;": "⫧",
	"bbrk;": "⎵",
	"Beta;": "Β",
	"beta;": "β",
	"beth;": "ℶ",
	"bNot;": "⫭",
	"bnot;": "⌐",
	"Bopf;": "𝔹",
	"bopf;": "𝕓",
	"boxH;": "═",
	"boxh;": "─",
	"boxV;": "║",
	"boxv;": "│",
	"Bscr;": "ℬ",
	"bscr;": "𝒷",
	"bsim;": "∽",
	"bsol;": "\\",
	"bull;": "•",
	"bump;": "≎",
	"caps;": "∩︀",
	"Cdot;": "Ċ",
	"cdot;": "ċ",
	cedil: "¸",
	"cent;": "¢",
	"CHcy;": "Ч",
	"chcy;": "ч",
	"circ;": "ˆ",
	"cirE;": "⧃",
	"cire;": "≗",
	"comp;": "∁",
	"cong;": "≅",
	"Copf;": "ℂ",
	"copf;": "𝕔",
	"COPY;": "©",
	"copy;": "©",
	"Cscr;": "𝒞",
	"cscr;": "𝒸",
	"csub;": "⫏",
	"csup;": "⫐",
	"cups;": "∪︀",
	"Darr;": "↡",
	"dArr;": "⇓",
	"darr;": "↓",
	"dash;": "‐",
	"dHar;": "⥥",
	"diam;": "⋄",
	"DJcy;": "Ђ",
	"djcy;": "ђ",
	"Dopf;": "𝔻",
	"dopf;": "𝕕",
	"Dscr;": "𝒟",
	"dscr;": "𝒹",
	"DScy;": "Ѕ",
	"dscy;": "ѕ",
	"dsol;": "⧶",
	"dtri;": "▿",
	"DZcy;": "Џ",
	"dzcy;": "џ",
	"ecir;": "≖",
	Ecirc: "Ê",
	ecirc: "ê",
	"Edot;": "Ė",
	"eDot;": "≑",
	"edot;": "ė",
	"emsp;": " ",
	"ensp;": " ",
	"Eopf;": "𝔼",
	"eopf;": "𝕖",
	"epar;": "⋕",
	"epsi;": "ε",
	"Escr;": "ℰ",
	"escr;": "ℯ",
	"Esim;": "⩳",
	"esim;": "≂",
	"Euml;": "Ë",
	"euml;": "ë",
	"euro;": "€",
	"excl;": "!",
	"flat;": "♭",
	"fnof;": "ƒ",
	"Fopf;": "𝔽",
	"fopf;": "𝕗",
	"fork;": "⋔",
	"Fscr;": "ℱ",
	"fscr;": "𝒻",
	"Gdot;": "Ġ",
	"gdot;": "ġ",
	"geqq;": "≧",
	"gesl;": "⋛︀",
	"GJcy;": "Ѓ",
	"gjcy;": "ѓ",
	"gnap;": "⪊",
	"gneq;": "⪈",
	"Gopf;": "𝔾",
	"gopf;": "𝕘",
	"Gscr;": "𝒢",
	"gscr;": "ℊ",
	"gsim;": "≳",
	"gtcc;": "⪧",
	"gvnE;": "≩︀",
	"half;": "½",
	"hArr;": "⇔",
	"harr;": "↔",
	"hbar;": "ℏ",
	"Hopf;": "ℍ",
	"hopf;": "𝕙",
	"Hscr;": "ℋ",
	"hscr;": "𝒽",
	Icirc: "Î",
	icirc: "î",
	"Idot;": "İ",
	"IEcy;": "Е",
	"iecy;": "е",
	iexcl: "¡",
	"imof;": "⊷",
	"IOcy;": "Ё",
	"iocy;": "ё",
	"Iopf;": "𝕀",
	"iopf;": "𝕚",
	"Iota;": "Ι",
	"iota;": "ι",
	"Iscr;": "ℐ",
	"iscr;": "𝒾",
	"isin;": "∈",
	"Iuml;": "Ï",
	"iuml;": "ï",
	"Jopf;": "𝕁",
	"jopf;": "𝕛",
	"Jscr;": "𝒥",
	"jscr;": "𝒿",
	"KHcy;": "Х",
	"khcy;": "х",
	"KJcy;": "Ќ",
	"kjcy;": "ќ",
	"Kopf;": "𝕂",
	"kopf;": "𝕜",
	"Kscr;": "𝒦",
	"kscr;": "𝓀",
	"Lang;": "⟪",
	"lang;": "⟨",
	laquo: "«",
	"Larr;": "↞",
	"lArr;": "⇐",
	"larr;": "←",
	"late;": "⪭",
	"lcub;": "{",
	"ldca;": "⤶",
	"ldsh;": "↲",
	"leqq;": "≦",
	"lesg;": "⋚︀",
	"lHar;": "⥢",
	"LJcy;": "Љ",
	"ljcy;": "љ",
	"lnap;": "⪉",
	"lneq;": "⪇",
	"Lopf;": "𝕃",
	"lopf;": "𝕝",
	"lozf;": "⧫",
	"lpar;": "(",
	"Lscr;": "ℒ",
	"lscr;": "𝓁",
	"lsim;": "≲",
	"lsqb;": "[",
	"ltcc;": "⪦",
	"ltri;": "◃",
	"lvnE;": "≨︀",
	"macr;": "¯",
	"male;": "♂",
	"malt;": "✠",
	micro: "µ",
	"mlcp;": "⫛",
	"mldr;": "…",
	"Mopf;": "𝕄",
	"mopf;": "𝕞",
	"Mscr;": "ℳ",
	"mscr;": "𝓂",
	"nang;": "∠⃒",
	"napE;": "⩰̸",
	"nbsp;": " ",
	"ncap;": "⩃",
	"ncup;": "⩂",
	"ngeq;": "≱",
	"nges;": "⩾̸",
	"ngtr;": "≯",
	"nGtv;": "≫̸",
	"nisd;": "⋺",
	"NJcy;": "Њ",
	"njcy;": "њ",
	"nldr;": "‥",
	"nleq;": "≰",
	"nles;": "⩽̸",
	"nLtv;": "≪̸",
	"nmid;": "∤",
	"Nopf;": "ℕ",
	"nopf;": "𝕟",
	"npar;": "∦",
	"npre;": "⪯̸",
	"nsce;": "⪰̸",
	"Nscr;": "𝒩",
	"nscr;": "𝓃",
	"nsim;": "≁",
	"nsub;": "⊄",
	"nsup;": "⊅",
	"ntgl;": "≹",
	"ntlg;": "≸",
	"nvap;": "≍⃒",
	"nvge;": "≥⃒",
	"nvgt;": ">⃒",
	"nvle;": "≤⃒",
	"nvlt;": "<⃒",
	"oast;": "⊛",
	"ocir;": "⊚",
	Ocirc: "Ô",
	ocirc: "ô",
	"odiv;": "⨸",
	"odot;": "⊙",
	"ogon;": "˛",
	"oint;": "∮",
	"omid;": "⦶",
	"Oopf;": "𝕆",
	"oopf;": "𝕠",
	"opar;": "⦷",
	"ordf;": "ª",
	"ordm;": "º",
	"oror;": "⩖",
	"Oscr;": "𝒪",
	"oscr;": "ℴ",
	"osol;": "⊘",
	"Ouml;": "Ö",
	"ouml;": "ö",
	"para;": "¶",
	"part;": "∂",
	"perp;": "⊥",
	"phiv;": "ϕ",
	"plus;": "+",
	"Popf;": "ℙ",
	"popf;": "𝕡",
	pound: "£",
	"prap;": "⪷",
	"prec;": "≺",
	"prnE;": "⪵",
	"prod;": "∏",
	"prop;": "∝",
	"Pscr;": "𝒫",
	"pscr;": "𝓅",
	"qint;": "⨌",
	"Qopf;": "ℚ",
	"qopf;": "𝕢",
	"Qscr;": "𝒬",
	"qscr;": "𝓆",
	"QUOT;": "\"",
	"quot;": "\"",
	"race;": "∽̱",
	"Rang;": "⟫",
	"rang;": "⟩",
	raquo: "»",
	"Rarr;": "↠",
	"rArr;": "⇒",
	"rarr;": "→",
	"rcub;": "}",
	"rdca;": "⤷",
	"rdsh;": "↳",
	"real;": "ℜ",
	"rect;": "▭",
	"rHar;": "⥤",
	"rhov;": "ϱ",
	"ring;": "˚",
	"Ropf;": "ℝ",
	"ropf;": "𝕣",
	"rpar;": ")",
	"Rscr;": "ℛ",
	"rscr;": "𝓇",
	"rsqb;": "]",
	"rtri;": "▹",
	"scap;": "⪸",
	"scnE;": "⪶",
	"sdot;": "⋅",
	"sect;": "§",
	"semi;": ";",
	"sext;": "✶",
	"SHcy;": "Ш",
	"shcy;": "ш",
	"sime;": "≃",
	"simg;": "⪞",
	"siml;": "⪝",
	"smid;": "∣",
	"smte;": "⪬",
	"solb;": "⧄",
	"Sopf;": "𝕊",
	"sopf;": "𝕤",
	"spar;": "∥",
	"Sqrt;": "√",
	"squf;": "▪",
	"Sscr;": "𝒮",
	"sscr;": "𝓈",
	"Star;": "⋆",
	"star;": "☆",
	"subE;": "⫅",
	"sube;": "⊆",
	"succ;": "≻",
	"sung;": "♪",
	"sup1;": "¹",
	"sup2;": "²",
	"sup3;": "³",
	"supE;": "⫆",
	"supe;": "⊇",
	szlig: "ß",
	"tbrk;": "⎴",
	"tdot;": "⃛",
	THORN: "Þ",
	thorn: "þ",
	times: "×",
	"tint;": "∭",
	"toea;": "⤨",
	"Topf;": "𝕋",
	"topf;": "𝕥",
	"tosa;": "⤩",
	"trie;": "≜",
	"Tscr;": "𝒯",
	"tscr;": "𝓉",
	"TScy;": "Ц",
	"tscy;": "ц",
	"Uarr;": "↟",
	"uArr;": "⇑",
	"uarr;": "↑",
	Ucirc: "Û",
	ucirc: "û",
	"uHar;": "⥣",
	"Uopf;": "𝕌",
	"uopf;": "𝕦",
	"Upsi;": "ϒ",
	"upsi;": "υ",
	"Uscr;": "𝒰",
	"uscr;": "𝓊",
	"utri;": "▵",
	"Uuml;": "Ü",
	"uuml;": "ü",
	"vArr;": "⇕",
	"varr;": "↕",
	"Vbar;": "⫫",
	"vBar;": "⫨",
	"Vert;": "‖",
	"vert;": "|",
	"Vopf;": "𝕍",
	"vopf;": "𝕧",
	"Vscr;": "𝒱",
	"vscr;": "𝓋",
	"Wopf;": "𝕎",
	"wopf;": "𝕨",
	"Wscr;": "𝒲",
	"wscr;": "𝓌",
	"xcap;": "⋂",
	"xcup;": "⋃",
	"xmap;": "⟼",
	"xnis;": "⋻",
	"Xopf;": "𝕏",
	"xopf;": "𝕩",
	"Xscr;": "𝒳",
	"xscr;": "𝓍",
	"xvee;": "⋁",
	"YAcy;": "Я",
	"yacy;": "я",
	"YIcy;": "Ї",
	"yicy;": "ї",
	"Yopf;": "𝕐",
	"yopf;": "𝕪",
	"Yscr;": "𝒴",
	"yscr;": "𝓎",
	"YUcy;": "Ю",
	"yucy;": "ю",
	"Yuml;": "Ÿ",
	"yuml;": "ÿ",
	"Zdot;": "Ż",
	"zdot;": "ż",
	"Zeta;": "Ζ",
	"zeta;": "ζ",
	"ZHcy;": "Ж",
	"zhcy;": "ж",
	"Zopf;": "ℤ",
	"zopf;": "𝕫",
	"Zscr;": "𝒵",
	"zscr;": "𝓏",
	"zwnj;": "‌",
	Aacute: "Á",
	aacute: "á",
	"Acirc;": "Â",
	"acirc;": "â",
	"acute;": "´",
	"AElig;": "Æ",
	"aelig;": "æ",
	Agrave: "À",
	agrave: "à",
	"aleph;": "ℵ",
	"Alpha;": "Α",
	"alpha;": "α",
	"Amacr;": "Ā",
	"amacr;": "ā",
	"amalg;": "⨿",
	"angle;": "∠",
	"angrt;": "∟",
	"angst;": "Å",
	"Aogon;": "Ą",
	"aogon;": "ą",
	"Aring;": "Å",
	"aring;": "å",
	"asymp;": "≈",
	Atilde: "Ã",
	atilde: "ã",
	"awint;": "⨑",
	"bcong;": "≌",
	"bdquo;": "„",
	"bepsi;": "϶",
	"blank;": "␣",
	"blk12;": "▒",
	"blk14;": "░",
	"blk34;": "▓",
	"block;": "█",
	"boxDL;": "╗",
	"boxDl;": "╖",
	"boxdL;": "╕",
	"boxdl;": "┐",
	"boxDR;": "╔",
	"boxDr;": "╓",
	"boxdR;": "╒",
	"boxdr;": "┌",
	"boxHD;": "╦",
	"boxHd;": "╤",
	"boxhD;": "╥",
	"boxhd;": "┬",
	"boxHU;": "╩",
	"boxHu;": "╧",
	"boxhU;": "╨",
	"boxhu;": "┴",
	"boxUL;": "╝",
	"boxUl;": "╜",
	"boxuL;": "╛",
	"boxul;": "┘",
	"boxUR;": "╚",
	"boxUr;": "╙",
	"boxuR;": "╘",
	"boxur;": "└",
	"boxVH;": "╬",
	"boxVh;": "╫",
	"boxvH;": "╪",
	"boxvh;": "┼",
	"boxVL;": "╣",
	"boxVl;": "╢",
	"boxvL;": "╡",
	"boxvl;": "┤",
	"boxVR;": "╠",
	"boxVr;": "╟",
	"boxvR;": "╞",
	"boxvr;": "├",
	"Breve;": "˘",
	"breve;": "˘",
	brvbar: "¦",
	"bsemi;": "⁏",
	"bsime;": "⋍",
	"bsolb;": "⧅",
	"bumpE;": "⪮",
	"bumpe;": "≏",
	"caret;": "⁁",
	"caron;": "ˇ",
	"ccaps;": "⩍",
	Ccedil: "Ç",
	ccedil: "ç",
	"Ccirc;": "Ĉ",
	"ccirc;": "ĉ",
	"ccups;": "⩌",
	"cedil;": "¸",
	"check;": "✓",
	"clubs;": "♣",
	"Colon;": "∷",
	"colon;": ":",
	"comma;": ",",
	"crarr;": "↵",
	"Cross;": "⨯",
	"cross;": "✗",
	"csube;": "⫑",
	"csupe;": "⫒",
	"ctdot;": "⋯",
	"cuepr;": "⋞",
	"cuesc;": "⋟",
	"cupor;": "⩅",
	curren: "¤",
	"cuvee;": "⋎",
	"cuwed;": "⋏",
	"cwint;": "∱",
	"Dashv;": "⫤",
	"dashv;": "⊣",
	"dblac;": "˝",
	"ddarr;": "⇊",
	"Delta;": "Δ",
	"delta;": "δ",
	"dharl;": "⇃",
	"dharr;": "⇂",
	"diams;": "♦",
	"disin;": "⋲",
	divide: "÷",
	"doteq;": "≐",
	"dtdot;": "⋱",
	"dtrif;": "▾",
	"duarr;": "⇵",
	"duhar;": "⥯",
	Eacute: "É",
	eacute: "é",
	"Ecirc;": "Ê",
	"ecirc;": "ê",
	"eDDot;": "⩷",
	"efDot;": "≒",
	Egrave: "È",
	egrave: "è",
	"Emacr;": "Ē",
	"emacr;": "ē",
	"empty;": "∅",
	"Eogon;": "Ę",
	"eogon;": "ę",
	"eplus;": "⩱",
	"epsiv;": "ϵ",
	"eqsim;": "≂",
	"Equal;": "⩵",
	"equiv;": "≡",
	"erarr;": "⥱",
	"erDot;": "≓",
	"esdot;": "≐",
	"exist;": "∃",
	"fflig;": "ﬀ",
	"filig;": "ﬁ",
	"fjlig;": "fj",
	"fllig;": "ﬂ",
	"fltns;": "▱",
	"forkv;": "⫙",
	frac12: "½",
	frac14: "¼",
	frac34: "¾",
	"frasl;": "⁄",
	"frown;": "⌢",
	"Gamma;": "Γ",
	"gamma;": "γ",
	"Gcirc;": "Ĝ",
	"gcirc;": "ĝ",
	"gescc;": "⪩",
	"gimel;": "ℷ",
	"gneqq;": "≩",
	"gnsim;": "⋧",
	"grave;": "`",
	"gsime;": "⪎",
	"gsiml;": "⪐",
	"gtcir;": "⩺",
	"gtdot;": "⋗",
	"Hacek;": "ˇ",
	"harrw;": "↭",
	"Hcirc;": "Ĥ",
	"hcirc;": "ĥ",
	"hoarr;": "⇿",
	Iacute: "Í",
	iacute: "í",
	"Icirc;": "Î",
	"icirc;": "î",
	"iexcl;": "¡",
	Igrave: "Ì",
	igrave: "ì",
	"iiint;": "∭",
	"iiota;": "℩",
	"IJlig;": "Ĳ",
	"ijlig;": "ĳ",
	"Imacr;": "Ī",
	"imacr;": "ī",
	"image;": "ℑ",
	"imath;": "ı",
	"imped;": "Ƶ",
	"infin;": "∞",
	"Iogon;": "Į",
	"iogon;": "į",
	"iprod;": "⨼",
	iquest: "¿",
	"isinE;": "⋹",
	"isins;": "⋴",
	"isinv;": "∈",
	"Iukcy;": "І",
	"iukcy;": "і",
	"Jcirc;": "Ĵ",
	"jcirc;": "ĵ",
	"jmath;": "ȷ",
	"Jukcy;": "Є",
	"jukcy;": "є",
	"Kappa;": "Κ",
	"kappa;": "κ",
	"lAarr;": "⇚",
	"langd;": "⦑",
	"laquo;": "«",
	"larrb;": "⇤",
	"lates;": "⪭︀",
	"lBarr;": "⤎",
	"lbarr;": "⤌",
	"lbbrk;": "❲",
	"lbrke;": "⦋",
	"lceil;": "⌈",
	"ldquo;": "“",
	"lescc;": "⪨",
	"lhard;": "↽",
	"lharu;": "↼",
	"lhblk;": "▄",
	"llarr;": "⇇",
	"lltri;": "◺",
	"lneqq;": "≨",
	"lnsim;": "⋦",
	"loang;": "⟬",
	"loarr;": "⇽",
	"lobrk;": "⟦",
	"lopar;": "⦅",
	"lrarr;": "⇆",
	"lrhar;": "⇋",
	"lrtri;": "⊿",
	"lsime;": "⪍",
	"lsimg;": "⪏",
	"lsquo;": "‘",
	"ltcir;": "⩹",
	"ltdot;": "⋖",
	"ltrie;": "⊴",
	"ltrif;": "◂",
	"mdash;": "—",
	"mDDot;": "∺",
	"micro;": "µ",
	middot: "·",
	"minus;": "−",
	"mumap;": "⊸",
	"nabla;": "∇",
	"napid;": "≋̸",
	"napos;": "ŉ",
	"natur;": "♮",
	"nbump;": "≎̸",
	"ncong;": "≇",
	"ndash;": "–",
	"neArr;": "⇗",
	"nearr;": "↗",
	"nedot;": "≐̸",
	"nesim;": "≂̸",
	"ngeqq;": "≧̸",
	"ngsim;": "≵",
	"nhArr;": "⇎",
	"nharr;": "↮",
	"nhpar;": "⫲",
	"nlArr;": "⇍",
	"nlarr;": "↚",
	"nleqq;": "≦̸",
	"nless;": "≮",
	"nlsim;": "≴",
	"nltri;": "⋪",
	"notin;": "∉",
	"notni;": "∌",
	"npart;": "∂̸",
	"nprec;": "⊀",
	"nrArr;": "⇏",
	"nrarr;": "↛",
	"nrtri;": "⋫",
	"nsime;": "≄",
	"nsmid;": "∤",
	"nspar;": "∦",
	"nsubE;": "⫅̸",
	"nsube;": "⊈",
	"nsucc;": "⊁",
	"nsupE;": "⫆̸",
	"nsupe;": "⊉",
	Ntilde: "Ñ",
	ntilde: "ñ",
	"numsp;": " ",
	"nvsim;": "∼⃒",
	"nwArr;": "⇖",
	"nwarr;": "↖",
	Oacute: "Ó",
	oacute: "ó",
	"Ocirc;": "Ô",
	"ocirc;": "ô",
	"odash;": "⊝",
	"OElig;": "Œ",
	"oelig;": "œ",
	"ofcir;": "⦿",
	Ograve: "Ò",
	ograve: "ò",
	"ohbar;": "⦵",
	"olarr;": "↺",
	"olcir;": "⦾",
	"oline;": "‾",
	"Omacr;": "Ō",
	"omacr;": "ō",
	"Omega;": "Ω",
	"omega;": "ω",
	"operp;": "⦹",
	"oplus;": "⊕",
	"orarr;": "↻",
	"order;": "ℴ",
	Oslash: "Ø",
	oslash: "ø",
	Otilde: "Õ",
	otilde: "õ",
	"ovbar;": "⌽",
	"parsl;": "⫽",
	"phone;": "☎",
	"plusb;": "⊞",
	"pluse;": "⩲",
	plusmn: "±",
	"pound;": "£",
	"prcue;": "≼",
	"Prime;": "″",
	"prime;": "′",
	"prnap;": "⪹",
	"prsim;": "≾",
	"quest;": "?",
	"rAarr;": "⇛",
	"radic;": "√",
	"rangd;": "⦒",
	"range;": "⦥",
	"raquo;": "»",
	"rarrb;": "⇥",
	"rarrc;": "⤳",
	"rarrw;": "↝",
	"ratio;": "∶",
	"RBarr;": "⤐",
	"rBarr;": "⤏",
	"rbarr;": "⤍",
	"rbbrk;": "❳",
	"rbrke;": "⦌",
	"rceil;": "⌉",
	"rdquo;": "”",
	"reals;": "ℝ",
	"rhard;": "⇁",
	"rharu;": "⇀",
	"rlarr;": "⇄",
	"rlhar;": "⇌",
	"rnmid;": "⫮",
	"roang;": "⟭",
	"roarr;": "⇾",
	"robrk;": "⟧",
	"ropar;": "⦆",
	"rrarr;": "⇉",
	"rsquo;": "’",
	"rtrie;": "⊵",
	"rtrif;": "▸",
	"sbquo;": "‚",
	"sccue;": "≽",
	"Scirc;": "Ŝ",
	"scirc;": "ŝ",
	"scnap;": "⪺",
	"scsim;": "≿",
	"sdotb;": "⊡",
	"sdote;": "⩦",
	"seArr;": "⇘",
	"searr;": "↘",
	"setmn;": "∖",
	"sharp;": "♯",
	"Sigma;": "Σ",
	"sigma;": "σ",
	"simeq;": "≃",
	"simgE;": "⪠",
	"simlE;": "⪟",
	"simne;": "≆",
	"slarr;": "←",
	"smile;": "⌣",
	"smtes;": "⪬︀",
	"sqcap;": "⊓",
	"sqcup;": "⊔",
	"sqsub;": "⊏",
	"sqsup;": "⊐",
	"srarr;": "→",
	"starf;": "★",
	"strns;": "¯",
	"subnE;": "⫋",
	"subne;": "⊊",
	"supnE;": "⫌",
	"supne;": "⊋",
	"swArr;": "⇙",
	"swarr;": "↙",
	"szlig;": "ß",
	"Theta;": "Θ",
	"theta;": "θ",
	"thkap;": "≈",
	"THORN;": "Þ",
	"thorn;": "þ",
	"Tilde;": "∼",
	"tilde;": "˜",
	"times;": "×",
	"TRADE;": "™",
	"trade;": "™",
	"trisb;": "⧍",
	"TSHcy;": "Ћ",
	"tshcy;": "ћ",
	"twixt;": "≬",
	Uacute: "Ú",
	uacute: "ú",
	"Ubrcy;": "Ў",
	"ubrcy;": "ў",
	"Ucirc;": "Û",
	"ucirc;": "û",
	"udarr;": "⇅",
	"udhar;": "⥮",
	Ugrave: "Ù",
	ugrave: "ù",
	"uharl;": "↿",
	"uharr;": "↾",
	"uhblk;": "▀",
	"ultri;": "◸",
	"Umacr;": "Ū",
	"umacr;": "ū",
	"Union;": "⋃",
	"Uogon;": "Ų",
	"uogon;": "ų",
	"uplus;": "⊎",
	"upsih;": "ϒ",
	"UpTee;": "⊥",
	"Uring;": "Ů",
	"uring;": "ů",
	"urtri;": "◹",
	"utdot;": "⋰",
	"utrif;": "▴",
	"uuarr;": "⇈",
	"varpi;": "ϖ",
	"vBarv;": "⫩",
	"VDash;": "⊫",
	"Vdash;": "⊩",
	"vDash;": "⊨",
	"vdash;": "⊢",
	"veeeq;": "≚",
	"vltri;": "⊲",
	"vnsub;": "⊂⃒",
	"vnsup;": "⊃⃒",
	"vprop;": "∝",
	"vrtri;": "⊳",
	"Wcirc;": "Ŵ",
	"wcirc;": "ŵ",
	"Wedge;": "⋀",
	"wedge;": "∧",
	"xcirc;": "◯",
	"xdtri;": "▽",
	"xhArr;": "⟺",
	"xharr;": "⟷",
	"xlArr;": "⟸",
	"xlarr;": "⟵",
	"xodot;": "⨀",
	"xrArr;": "⟹",
	"xrarr;": "⟶",
	"xutri;": "△",
	Yacute: "Ý",
	yacute: "ý",
	"Ycirc;": "Ŷ",
	"ycirc;": "ŷ",
	"Aacute;": "Á",
	"aacute;": "á",
	"Abreve;": "Ă",
	"abreve;": "ă",
	"Agrave;": "À",
	"agrave;": "à",
	"andand;": "⩕",
	"angmsd;": "∡",
	"angsph;": "∢",
	"apacir;": "⩯",
	"approx;": "≈",
	"Assign;": "≔",
	"Atilde;": "Ã",
	"atilde;": "ã",
	"barvee;": "⊽",
	"Barwed;": "⌆",
	"barwed;": "⌅",
	"becaus;": "∵",
	"bernou;": "ℬ",
	"bigcap;": "⋂",
	"bigcup;": "⋃",
	"bigvee;": "⋁",
	"bkarow;": "⤍",
	"bottom;": "⊥",
	"bowtie;": "⋈",
	"boxbox;": "⧉",
	"bprime;": "‵",
	"brvbar;": "¦",
	"bullet;": "•",
	"Bumpeq;": "≎",
	"bumpeq;": "≏",
	"Cacute;": "Ć",
	"cacute;": "ć",
	"capand;": "⩄",
	"capcap;": "⩋",
	"capcup;": "⩇",
	"capdot;": "⩀",
	"Ccaron;": "Č",
	"ccaron;": "č",
	"Ccedil;": "Ç",
	"ccedil;": "ç",
	"circeq;": "≗",
	"cirmid;": "⫯",
	"Colone;": "⩴",
	"colone;": "≔",
	"commat;": "@",
	"compfn;": "∘",
	"Conint;": "∯",
	"conint;": "∮",
	"coprod;": "∐",
	"copysr;": "℗",
	"cularr;": "↶",
	"CupCap;": "≍",
	"cupcap;": "⩆",
	"cupcup;": "⩊",
	"cupdot;": "⊍",
	"curarr;": "↷",
	"curren;": "¤",
	"cylcty;": "⌭",
	"Dagger;": "‡",
	"dagger;": "†",
	"daleth;": "ℸ",
	"Dcaron;": "Ď",
	"dcaron;": "ď",
	"dfisht;": "⥿",
	"divide;": "÷",
	"divonx;": "⋇",
	"dlcorn;": "⌞",
	"dlcrop;": "⌍",
	"dollar;": "$",
	"DotDot;": "⃜",
	"drcorn;": "⌟",
	"drcrop;": "⌌",
	"Dstrok;": "Đ",
	"dstrok;": "đ",
	"Eacute;": "É",
	"eacute;": "é",
	"easter;": "⩮",
	"Ecaron;": "Ě",
	"ecaron;": "ě",
	"ecolon;": "≕",
	"Egrave;": "È",
	"egrave;": "è",
	"egsdot;": "⪘",
	"elsdot;": "⪗",
	"emptyv;": "∅",
	"emsp13;": " ",
	"emsp14;": " ",
	"eparsl;": "⧣",
	"eqcirc;": "≖",
	"equals;": "=",
	"equest;": "≟",
	"Exists;": "∃",
	"female;": "♀",
	"ffilig;": "ﬃ",
	"ffllig;": "ﬄ",
	"ForAll;": "∀",
	"forall;": "∀",
	"frac12;": "½",
	"frac13;": "⅓",
	"frac14;": "¼",
	"frac15;": "⅕",
	"frac16;": "⅙",
	"frac18;": "⅛",
	"frac23;": "⅔",
	"frac25;": "⅖",
	"frac34;": "¾",
	"frac35;": "⅗",
	"frac38;": "⅜",
	"frac45;": "⅘",
	"frac56;": "⅚",
	"frac58;": "⅝",
	"frac78;": "⅞",
	"gacute;": "ǵ",
	"Gammad;": "Ϝ",
	"gammad;": "ϝ",
	"Gbreve;": "Ğ",
	"gbreve;": "ğ",
	"Gcedil;": "Ģ",
	"gesdot;": "⪀",
	"gesles;": "⪔",
	"gtlPar;": "⦕",
	"gtrarr;": "⥸",
	"gtrdot;": "⋗",
	"gtrsim;": "≳",
	"hairsp;": " ",
	"hamilt;": "ℋ",
	"HARDcy;": "Ъ",
	"hardcy;": "ъ",
	"hearts;": "♥",
	"hellip;": "…",
	"hercon;": "⊹",
	"homtht;": "∻",
	"horbar;": "―",
	"hslash;": "ℏ",
	"Hstrok;": "Ħ",
	"hstrok;": "ħ",
	"hybull;": "⁃",
	"hyphen;": "‐",
	"Iacute;": "Í",
	"iacute;": "í",
	"Igrave;": "Ì",
	"igrave;": "ì",
	"iiiint;": "⨌",
	"iinfin;": "⧜",
	"incare;": "℅",
	"inodot;": "ı",
	"intcal;": "⊺",
	"iquest;": "¿",
	"isinsv;": "⋳",
	"Itilde;": "Ĩ",
	"itilde;": "ĩ",
	"Jsercy;": "Ј",
	"jsercy;": "ј",
	"kappav;": "ϰ",
	"Kcedil;": "Ķ",
	"kcedil;": "ķ",
	"kgreen;": "ĸ",
	"Lacute;": "Ĺ",
	"lacute;": "ĺ",
	"lagran;": "ℒ",
	"Lambda;": "Λ",
	"lambda;": "λ",
	"langle;": "⟨",
	"larrfs;": "⤝",
	"larrhk;": "↩",
	"larrlp;": "↫",
	"larrpl;": "⤹",
	"larrtl;": "↢",
	"lAtail;": "⤛",
	"latail;": "⤙",
	"lbrace;": "{",
	"lbrack;": "[",
	"Lcaron;": "Ľ",
	"lcaron;": "ľ",
	"Lcedil;": "Ļ",
	"lcedil;": "ļ",
	"ldquor;": "„",
	"lesdot;": "⩿",
	"lesges;": "⪓",
	"lfisht;": "⥼",
	"lfloor;": "⌊",
	"lharul;": "⥪",
	"llhard;": "⥫",
	"Lmidot;": "Ŀ",
	"lmidot;": "ŀ",
	"lmoust;": "⎰",
	"loplus;": "⨭",
	"lowast;": "∗",
	"lowbar;": "_",
	"lparlt;": "⦓",
	"lrhard;": "⥭",
	"lsaquo;": "‹",
	"lsquor;": "‚",
	"Lstrok;": "Ł",
	"lstrok;": "ł",
	"lthree;": "⋋",
	"ltimes;": "⋉",
	"ltlarr;": "⥶",
	"ltrPar;": "⦖",
	"mapsto;": "↦",
	"marker;": "▮",
	"mcomma;": "⨩",
	"midast;": "*",
	"midcir;": "⫰",
	"middot;": "·",
	"minusb;": "⊟",
	"minusd;": "∸",
	"mnplus;": "∓",
	"models;": "⊧",
	"mstpos;": "∾",
	"Nacute;": "Ń",
	"nacute;": "ń",
	"nbumpe;": "≏̸",
	"Ncaron;": "Ň",
	"ncaron;": "ň",
	"Ncedil;": "Ņ",
	"ncedil;": "ņ",
	"nearhk;": "⤤",
	"nequiv;": "≢",
	"nesear;": "⤨",
	"nexist;": "∄",
	"nltrie;": "⋬",
	"notinE;": "⋹̸",
	"nparsl;": "⫽⃥",
	"nprcue;": "⋠",
	"nrarrc;": "⤳̸",
	"nrarrw;": "↝̸",
	"nrtrie;": "⋭",
	"nsccue;": "⋡",
	"nsimeq;": "≄",
	"Ntilde;": "Ñ",
	"ntilde;": "ñ",
	"numero;": "№",
	"nVDash;": "⊯",
	"nVdash;": "⊮",
	"nvDash;": "⊭",
	"nvdash;": "⊬",
	"nvHarr;": "⤄",
	"nvlArr;": "⤂",
	"nvrArr;": "⤃",
	"nwarhk;": "⤣",
	"nwnear;": "⤧",
	"Oacute;": "Ó",
	"oacute;": "ó",
	"Odblac;": "Ő",
	"odblac;": "ő",
	"odsold;": "⦼",
	"Ograve;": "Ò",
	"ograve;": "ò",
	"ominus;": "⊖",
	"origof;": "⊶",
	"Oslash;": "Ø",
	"oslash;": "ø",
	"Otilde;": "Õ",
	"otilde;": "õ",
	"Otimes;": "⨷",
	"otimes;": "⊗",
	"parsim;": "⫳",
	"percnt;": "%",
	"period;": ".",
	"permil;": "‰",
	"phmmat;": "ℳ",
	"planck;": "ℏ",
	"plankv;": "ℏ",
	"plusdo;": "∔",
	"plusdu;": "⨥",
	"plusmn;": "±",
	"preceq;": "⪯",
	"primes;": "ℙ",
	"prnsim;": "⋨",
	"propto;": "∝",
	"prurel;": "⊰",
	"puncsp;": " ",
	"qprime;": "⁗",
	"Racute;": "Ŕ",
	"racute;": "ŕ",
	"rangle;": "⟩",
	"rarrap;": "⥵",
	"rarrfs;": "⤞",
	"rarrhk;": "↪",
	"rarrlp;": "↬",
	"rarrpl;": "⥅",
	"Rarrtl;": "⤖",
	"rarrtl;": "↣",
	"rAtail;": "⤜",
	"ratail;": "⤚",
	"rbrace;": "}",
	"rbrack;": "]",
	"Rcaron;": "Ř",
	"rcaron;": "ř",
	"Rcedil;": "Ŗ",
	"rcedil;": "ŗ",
	"rdquor;": "”",
	"rfisht;": "⥽",
	"rfloor;": "⌋",
	"rharul;": "⥬",
	"rmoust;": "⎱",
	"roplus;": "⨮",
	"rpargt;": "⦔",
	"rsaquo;": "›",
	"rsquor;": "’",
	"rthree;": "⋌",
	"rtimes;": "⋊",
	"Sacute;": "Ś",
	"sacute;": "ś",
	"Scaron;": "Š",
	"scaron;": "š",
	"Scedil;": "Ş",
	"scedil;": "ş",
	"scnsim;": "⋩",
	"searhk;": "⤥",
	"seswar;": "⤩",
	"sfrown;": "⌢",
	"SHCHcy;": "Щ",
	"shchcy;": "щ",
	"sigmaf;": "ς",
	"sigmav;": "ς",
	"simdot;": "⩪",
	"smashp;": "⨳",
	"SOFTcy;": "Ь",
	"softcy;": "ь",
	"solbar;": "⌿",
	"spades;": "♠",
	"sqcaps;": "⊓︀",
	"sqcups;": "⊔︀",
	"sqsube;": "⊑",
	"sqsupe;": "⊒",
	"Square;": "□",
	"square;": "□",
	"squarf;": "▪",
	"ssetmn;": "∖",
	"ssmile;": "⌣",
	"sstarf;": "⋆",
	"subdot;": "⪽",
	"Subset;": "⋐",
	"subset;": "⊂",
	"subsim;": "⫇",
	"subsub;": "⫕",
	"subsup;": "⫓",
	"succeq;": "⪰",
	"supdot;": "⪾",
	"Supset;": "⋑",
	"supset;": "⊃",
	"supsim;": "⫈",
	"supsub;": "⫔",
	"supsup;": "⫖",
	"swarhk;": "⤦",
	"swnwar;": "⤪",
	"target;": "⌖",
	"Tcaron;": "Ť",
	"tcaron;": "ť",
	"Tcedil;": "Ţ",
	"tcedil;": "ţ",
	"telrec;": "⌕",
	"there4;": "∴",
	"thetav;": "ϑ",
	"thinsp;": " ",
	"thksim;": "∼",
	"timesb;": "⊠",
	"timesd;": "⨰",
	"topbot;": "⌶",
	"topcir;": "⫱",
	"tprime;": "‴",
	"tridot;": "◬",
	"Tstrok;": "Ŧ",
	"tstrok;": "ŧ",
	"Uacute;": "Ú",
	"uacute;": "ú",
	"Ubreve;": "Ŭ",
	"ubreve;": "ŭ",
	"Udblac;": "Ű",
	"udblac;": "ű",
	"ufisht;": "⥾",
	"Ugrave;": "Ù",
	"ugrave;": "ù",
	"ulcorn;": "⌜",
	"ulcrop;": "⌏",
	"urcorn;": "⌝",
	"urcrop;": "⌎",
	"Utilde;": "Ũ",
	"utilde;": "ũ",
	"vangrt;": "⦜",
	"varphi;": "ϕ",
	"varrho;": "ϱ",
	"Vdashl;": "⫦",
	"veebar;": "⊻",
	"vellip;": "⋮",
	"Verbar;": "‖",
	"verbar;": "|",
	"vsubnE;": "⫋︀",
	"vsubne;": "⊊︀",
	"vsupnE;": "⫌︀",
	"vsupne;": "⊋︀",
	"Vvdash;": "⊪",
	"wedbar;": "⩟",
	"wedgeq;": "≙",
	"weierp;": "℘",
	"wreath;": "≀",
	"xoplus;": "⨁",
	"xotime;": "⨂",
	"xsqcup;": "⨆",
	"xuplus;": "⨄",
	"xwedge;": "⋀",
	"Yacute;": "Ý",
	"yacute;": "ý",
	"Zacute;": "Ź",
	"zacute;": "ź",
	"Zcaron;": "Ž",
	"zcaron;": "ž",
	"zeetrf;": "ℨ",
	"alefsym;": "ℵ",
	"angrtvb;": "⊾",
	"angzarr;": "⍼",
	"asympeq;": "≍",
	"backsim;": "∽",
	"Because;": "∵",
	"because;": "∵",
	"bemptyv;": "⦰",
	"between;": "≬",
	"bigcirc;": "◯",
	"bigodot;": "⨀",
	"bigstar;": "★",
	"bnequiv;": "≡⃥",
	"boxplus;": "⊞",
	"Cayleys;": "ℭ",
	"Cconint;": "∰",
	"ccupssm;": "⩐",
	"Cedilla;": "¸",
	"cemptyv;": "⦲",
	"cirscir;": "⧂",
	"coloneq;": "≔",
	"congdot;": "⩭",
	"cudarrl;": "⤸",
	"cudarrr;": "⤵",
	"cularrp;": "⤽",
	"curarrm;": "⤼",
	"dbkarow;": "⤏",
	"ddagger;": "‡",
	"ddotseq;": "⩷",
	"demptyv;": "⦱",
	"Diamond;": "⋄",
	"diamond;": "⋄",
	"digamma;": "ϝ",
	"dotplus;": "∔",
	"DownTee;": "⊤",
	"dwangle;": "⦦",
	"Element;": "∈",
	"Epsilon;": "Ε",
	"epsilon;": "ε",
	"eqcolon;": "≕",
	"equivDD;": "⩸",
	"gesdoto;": "⪂",
	"gtquest;": "⩼",
	"gtrless;": "≷",
	"harrcir;": "⥈",
	"Implies;": "⇒",
	"intprod;": "⨼",
	"isindot;": "⋵",
	"larrbfs;": "⤟",
	"larrsim;": "⥳",
	"lbrksld;": "⦏",
	"lbrkslu;": "⦍",
	"ldrdhar;": "⥧",
	"LeftTee;": "⊣",
	"lesdoto;": "⪁",
	"lessdot;": "⋖",
	"lessgtr;": "≶",
	"lesssim;": "≲",
	"lotimes;": "⨴",
	"lozenge;": "◊",
	"ltquest;": "⩻",
	"luruhar;": "⥦",
	"maltese;": "✠",
	"minusdu;": "⨪",
	"napprox;": "≉",
	"natural;": "♮",
	"nearrow;": "↗",
	"NewLine;": "\n",
	"nexists;": "∄",
	"NoBreak;": "⁠",
	"notinva;": "∉",
	"notinvb;": "⋷",
	"notinvc;": "⋶",
	"NotLess;": "≮",
	"notniva;": "∌",
	"notnivb;": "⋾",
	"notnivc;": "⋽",
	"npolint;": "⨔",
	"npreceq;": "⪯̸",
	"nsqsube;": "⋢",
	"nsqsupe;": "⋣",
	"nsubset;": "⊂⃒",
	"nsucceq;": "⪰̸",
	"nsupset;": "⊃⃒",
	"nvinfin;": "⧞",
	"nvltrie;": "⊴⃒",
	"nvrtrie;": "⊵⃒",
	"nwarrow;": "↖",
	"olcross;": "⦻",
	"Omicron;": "Ο",
	"omicron;": "ο",
	"orderof;": "ℴ",
	"orslope;": "⩗",
	"OverBar;": "‾",
	"pertenk;": "‱",
	"planckh;": "ℎ",
	"pluscir;": "⨢",
	"plussim;": "⨦",
	"plustwo;": "⨧",
	"precsim;": "≾",
	"Product;": "∏",
	"quatint;": "⨖",
	"questeq;": "≟",
	"rarrbfs;": "⤠",
	"rarrsim;": "⥴",
	"rbrksld;": "⦎",
	"rbrkslu;": "⦐",
	"rdldhar;": "⥩",
	"realine;": "ℛ",
	"rotimes;": "⨵",
	"ruluhar;": "⥨",
	"searrow;": "↘",
	"simplus;": "⨤",
	"simrarr;": "⥲",
	"subedot;": "⫃",
	"submult;": "⫁",
	"subplus;": "⪿",
	"subrarr;": "⥹",
	"succsim;": "≿",
	"supdsub;": "⫘",
	"supedot;": "⫄",
	"suphsol;": "⟉",
	"suphsub;": "⫗",
	"suplarr;": "⥻",
	"supmult;": "⫂",
	"supplus;": "⫀",
	"swarrow;": "↙",
	"topfork;": "⫚",
	"triplus;": "⨹",
	"tritime;": "⨻",
	"UpArrow;": "↑",
	"Uparrow;": "⇑",
	"uparrow;": "↑",
	"Upsilon;": "Υ",
	"upsilon;": "υ",
	"uwangle;": "⦧",
	"vzigzag;": "⦚",
	"zigrarr;": "⇝",
	"andslope;": "⩘",
	"angmsdaa;": "⦨",
	"angmsdab;": "⦩",
	"angmsdac;": "⦪",
	"angmsdad;": "⦫",
	"angmsdae;": "⦬",
	"angmsdaf;": "⦭",
	"angmsdag;": "⦮",
	"angmsdah;": "⦯",
	"angrtvbd;": "⦝",
	"approxeq;": "≊",
	"awconint;": "∳",
	"backcong;": "≌",
	"barwedge;": "⌅",
	"bbrktbrk;": "⎶",
	"bigoplus;": "⨁",
	"bigsqcup;": "⨆",
	"biguplus;": "⨄",
	"bigwedge;": "⋀",
	"boxminus;": "⊟",
	"boxtimes;": "⊠",
	"bsolhsub;": "⟈",
	"capbrcup;": "⩉",
	"circledR;": "®",
	"circledS;": "Ⓢ",
	"cirfnint;": "⨐",
	"clubsuit;": "♣",
	"cupbrcap;": "⩈",
	"curlyvee;": "⋎",
	"cwconint;": "∲",
	"DDotrahd;": "⤑",
	"doteqdot;": "≑",
	"DotEqual;": "≐",
	"dotminus;": "∸",
	"drbkarow;": "⤐",
	"dzigrarr;": "⟿",
	"elinters;": "⏧",
	"emptyset;": "∅",
	"eqvparsl;": "⧥",
	"fpartint;": "⨍",
	"geqslant;": "⩾",
	"gesdotol;": "⪄",
	"gnapprox;": "⪊",
	"hksearow;": "⤥",
	"hkswarow;": "⤦",
	"imagline;": "ℐ",
	"imagpart;": "ℑ",
	"infintie;": "⧝",
	"integers;": "ℤ",
	"Integral;": "∫",
	"intercal;": "⊺",
	"intlarhk;": "⨗",
	"laemptyv;": "⦴",
	"ldrushar;": "⥋",
	"leqslant;": "⩽",
	"lesdotor;": "⪃",
	"LessLess;": "⪡",
	"llcorner;": "⌞",
	"lnapprox;": "⪉",
	"lrcorner;": "⌟",
	"lurdshar;": "⥊",
	"mapstoup;": "↥",
	"multimap;": "⊸",
	"naturals;": "ℕ",
	"ncongdot;": "⩭̸",
	"NotEqual;": "≠",
	"notindot;": "⋵̸",
	"NotTilde;": "≁",
	"otimesas;": "⨶",
	"parallel;": "∥",
	"PartialD;": "∂",
	"plusacir;": "⨣",
	"pointint;": "⨕",
	"Precedes;": "≺",
	"precneqq;": "⪵",
	"precnsim;": "⋨",
	"profalar;": "⌮",
	"profline;": "⌒",
	"profsurf;": "⌓",
	"raemptyv;": "⦳",
	"realpart;": "ℜ",
	"RightTee;": "⊢",
	"rppolint;": "⨒",
	"rtriltri;": "⧎",
	"scpolint;": "⨓",
	"setminus;": "∖",
	"shortmid;": "∣",
	"smeparsl;": "⧤",
	"sqsubset;": "⊏",
	"sqsupset;": "⊐",
	"subseteq;": "⊆",
	"Succeeds;": "≻",
	"succneqq;": "⪶",
	"succnsim;": "⋩",
	"SuchThat;": "∋",
	"Superset;": "⊃",
	"supseteq;": "⊇",
	"thetasym;": "ϑ",
	"thicksim;": "∼",
	"timesbar;": "⨱",
	"triangle;": "▵",
	"triminus;": "⨺",
	"trpezium;": "⏢",
	"Uarrocir;": "⥉",
	"ulcorner;": "⌜",
	"UnderBar;": "_",
	"urcorner;": "⌝",
	"varkappa;": "ϰ",
	"varsigma;": "ς",
	"vartheta;": "ϑ",
	"backprime;": "‵",
	"backsimeq;": "⋍",
	"Backslash;": "∖",
	"bigotimes;": "⨂",
	"CenterDot;": "·",
	"centerdot;": "·",
	"checkmark;": "✓",
	"CircleDot;": "⊙",
	"complexes;": "ℂ",
	"Congruent;": "≡",
	"Coproduct;": "∐",
	"dotsquare;": "⊡",
	"DoubleDot;": "¨",
	"DownArrow;": "↓",
	"Downarrow;": "⇓",
	"downarrow;": "↓",
	"DownBreve;": "̑",
	"gtrapprox;": "⪆",
	"gtreqless;": "⋛",
	"gvertneqq;": "≩︀",
	"heartsuit;": "♥",
	"HumpEqual;": "≏",
	"LeftArrow;": "←",
	"Leftarrow;": "⇐",
	"leftarrow;": "←",
	"LeftFloor;": "⌊",
	"lesseqgtr;": "⋚",
	"LessTilde;": "≲",
	"lvertneqq;": "≨︀",
	"Mellintrf;": "ℳ",
	"MinusPlus;": "∓",
	"ngeqslant;": "⩾̸",
	"nleqslant;": "⩽̸",
	"NotCupCap;": "≭",
	"NotExists;": "∄",
	"NotSubset;": "⊂⃒",
	"nparallel;": "∦",
	"nshortmid;": "∤",
	"nsubseteq;": "⊈",
	"nsupseteq;": "⊉",
	"OverBrace;": "⏞",
	"pitchfork;": "⋔",
	"PlusMinus;": "±",
	"rationals;": "ℚ",
	"spadesuit;": "♠",
	"subseteqq;": "⫅",
	"subsetneq;": "⊊",
	"supseteqq;": "⫆",
	"supsetneq;": "⊋",
	"Therefore;": "∴",
	"therefore;": "∴",
	"ThinSpace;": " ",
	"triangleq;": "≜",
	"TripleDot;": "⃛",
	"UnionPlus;": "⊎",
	"varpropto;": "∝",
	"Bernoullis;": "ℬ",
	"circledast;": "⊛",
	"CirclePlus;": "⊕",
	"complement;": "∁",
	"curlywedge;": "⋏",
	"eqslantgtr;": "⪖",
	"EqualTilde;": "≂",
	"Fouriertrf;": "ℱ",
	"gtreqqless;": "⪌",
	"ImaginaryI;": "ⅈ",
	"Laplacetrf;": "ℒ",
	"LeftVector;": "↼",
	"lessapprox;": "⪅",
	"lesseqqgtr;": "⪋",
	"Lleftarrow;": "⇚",
	"lmoustache;": "⎰",
	"longmapsto;": "⟼",
	"mapstodown;": "↧",
	"mapstoleft;": "↤",
	"nLeftarrow;": "⇍",
	"nleftarrow;": "↚",
	"NotElement;": "∉",
	"NotGreater;": "≯",
	"nsubseteqq;": "⫅̸",
	"nsupseteqq;": "⫆̸",
	"precapprox;": "⪷",
	"Proportion;": "∷",
	"RightArrow;": "→",
	"Rightarrow;": "⇒",
	"rightarrow;": "→",
	"RightFloor;": "⌋",
	"rmoustache;": "⎱",
	"sqsubseteq;": "⊑",
	"sqsupseteq;": "⊒",
	"subsetneqq;": "⫋",
	"succapprox;": "⪸",
	"supsetneqq;": "⫌",
	"ThickSpace;": "  ",
	"TildeEqual;": "≃",
	"TildeTilde;": "≈",
	"UnderBrace;": "⏟",
	"UpArrowBar;": "⤒",
	"UpTeeArrow;": "↥",
	"upuparrows;": "⇈",
	"varepsilon;": "ϵ",
	"varnothing;": "∅",
	"backepsilon;": "϶",
	"blacksquare;": "▪",
	"circledcirc;": "⊚",
	"circleddash;": "⊝",
	"CircleMinus;": "⊖",
	"CircleTimes;": "⊗",
	"curlyeqprec;": "⋞",
	"curlyeqsucc;": "⋟",
	"diamondsuit;": "♦",
	"eqslantless;": "⪕",
	"Equilibrium;": "⇌",
	"expectation;": "ℰ",
	"GreaterLess;": "≷",
	"LeftCeiling;": "⌈",
	"LessGreater;": "≶",
	"MediumSpace;": " ",
	"NotLessLess;": "≪̸",
	"NotPrecedes;": "⊀",
	"NotSucceeds;": "⊁",
	"NotSuperset;": "⊃⃒",
	"nRightarrow;": "⇏",
	"nrightarrow;": "↛",
	"OverBracket;": "⎴",
	"preccurlyeq;": "≼",
	"precnapprox;": "⪹",
	"quaternions;": "ℍ",
	"RightVector;": "⇀",
	"Rrightarrow;": "⇛",
	"RuleDelayed;": "⧴",
	"SmallCircle;": "∘",
	"SquareUnion;": "⊔",
	"straightphi;": "ϕ",
	"SubsetEqual;": "⊆",
	"succcurlyeq;": "≽",
	"succnapprox;": "⪺",
	"thickapprox;": "≈",
	"UpDownArrow;": "↕",
	"Updownarrow;": "⇕",
	"updownarrow;": "↕",
	"VerticalBar;": "∣",
	"blacklozenge;": "⧫",
	"DownArrowBar;": "⤓",
	"DownTeeArrow;": "↧",
	"ExponentialE;": "ⅇ",
	"exponentiale;": "ⅇ",
	"GreaterEqual;": "≥",
	"GreaterTilde;": "≳",
	"HilbertSpace;": "ℋ",
	"HumpDownHump;": "≎",
	"Intersection;": "⋂",
	"LeftArrowBar;": "⇤",
	"LeftTeeArrow;": "↤",
	"LeftTriangle;": "⊲",
	"LeftUpVector;": "↿",
	"NotCongruent;": "≢",
	"NotHumpEqual;": "≏̸",
	"NotLessEqual;": "≰",
	"NotLessTilde;": "≴",
	"Proportional;": "∝",
	"RightCeiling;": "⌉",
	"risingdotseq;": "≓",
	"RoundImplies;": "⥰",
	"ShortUpArrow;": "↑",
	"SquareSubset;": "⊏",
	"triangledown;": "▿",
	"triangleleft;": "◃",
	"UnderBracket;": "⎵",
	"varsubsetneq;": "⊊︀",
	"varsupsetneq;": "⊋︀",
	"VerticalLine;": "|",
	"ApplyFunction;": "⁡",
	"bigtriangleup;": "△",
	"blacktriangle;": "▴",
	"DifferentialD;": "ⅆ",
	"divideontimes;": "⋇",
	"DoubleLeftTee;": "⫤",
	"DoubleUpArrow;": "⇑",
	"fallingdotseq;": "≒",
	"hookleftarrow;": "↩",
	"leftarrowtail;": "↢",
	"leftharpoonup;": "↼",
	"LeftTeeVector;": "⥚",
	"LeftVectorBar;": "⥒",
	"LessFullEqual;": "≦",
	"LongLeftArrow;": "⟵",
	"Longleftarrow;": "⟸",
	"longleftarrow;": "⟵",
	"looparrowleft;": "↫",
	"measuredangle;": "∡",
	"NotEqualTilde;": "≂̸",
	"NotTildeEqual;": "≄",
	"NotTildeTilde;": "≉",
	"ntriangleleft;": "⋪",
	"Poincareplane;": "ℌ",
	"PrecedesEqual;": "⪯",
	"PrecedesTilde;": "≾",
	"RightArrowBar;": "⇥",
	"RightTeeArrow;": "↦",
	"RightTriangle;": "⊳",
	"RightUpVector;": "↾",
	"shortparallel;": "∥",
	"smallsetminus;": "∖",
	"SucceedsEqual;": "⪰",
	"SucceedsTilde;": "≿",
	"SupersetEqual;": "⊇",
	"triangleright;": "▹",
	"UpEquilibrium;": "⥮",
	"upharpoonleft;": "↿",
	"varsubsetneqq;": "⫋︀",
	"varsupsetneqq;": "⫌︀",
	"VerticalTilde;": "≀",
	"VeryThinSpace;": " ",
	"curvearrowleft;": "↶",
	"DiacriticalDot;": "˙",
	"doublebarwedge;": "⌆",
	"DoubleRightTee;": "⊨",
	"downdownarrows;": "⇊",
	"DownLeftVector;": "↽",
	"GreaterGreater;": "⪢",
	"hookrightarrow;": "↪",
	"HorizontalLine;": "─",
	"InvisibleComma;": "⁣",
	"InvisibleTimes;": "⁢",
	"LeftDownVector;": "⇃",
	"leftleftarrows;": "⇇",
	"LeftRightArrow;": "↔",
	"Leftrightarrow;": "⇔",
	"leftrightarrow;": "↔",
	"leftthreetimes;": "⋋",
	"LessSlantEqual;": "⩽",
	"LongRightArrow;": "⟶",
	"Longrightarrow;": "⟹",
	"longrightarrow;": "⟶",
	"looparrowright;": "↬",
	"LowerLeftArrow;": "↙",
	"NestedLessLess;": "≪",
	"NotGreaterLess;": "≹",
	"NotLessGreater;": "≸",
	"NotSubsetEqual;": "⊈",
	"NotVerticalBar;": "∤",
	"nshortparallel;": "∦",
	"ntriangleright;": "⋫",
	"OpenCurlyQuote;": "‘",
	"ReverseElement;": "∋",
	"rightarrowtail;": "↣",
	"rightharpoonup;": "⇀",
	"RightTeeVector;": "⥛",
	"RightVectorBar;": "⥓",
	"ShortDownArrow;": "↓",
	"ShortLeftArrow;": "←",
	"SquareSuperset;": "⊐",
	"TildeFullEqual;": "≅",
	"trianglelefteq;": "⊴",
	"upharpoonright;": "↾",
	"UpperLeftArrow;": "↖",
	"ZeroWidthSpace;": "​",
	"bigtriangledown;": "▽",
	"circlearrowleft;": "↺",
	"CloseCurlyQuote;": "’",
	"ContourIntegral;": "∮",
	"curvearrowright;": "↷",
	"DoubleDownArrow;": "⇓",
	"DoubleLeftArrow;": "⇐",
	"downharpoonleft;": "⇃",
	"DownRightVector;": "⇁",
	"leftharpoondown;": "↽",
	"leftrightarrows;": "⇆",
	"LeftRightVector;": "⥎",
	"LeftTriangleBar;": "⧏",
	"LeftUpTeeVector;": "⥠",
	"LeftUpVectorBar;": "⥘",
	"LowerRightArrow;": "↘",
	"nLeftrightarrow;": "⇎",
	"nleftrightarrow;": "↮",
	"NotGreaterEqual;": "≱",
	"NotGreaterTilde;": "≵",
	"NotHumpDownHump;": "≎̸",
	"NotLeftTriangle;": "⋪",
	"NotSquareSubset;": "⊏̸",
	"ntrianglelefteq;": "⋬",
	"OverParenthesis;": "⏜",
	"RightDownVector;": "⇂",
	"rightleftarrows;": "⇄",
	"rightsquigarrow;": "↝",
	"rightthreetimes;": "⋌",
	"ShortRightArrow;": "→",
	"straightepsilon;": "ϵ",
	"trianglerighteq;": "⊵",
	"UpperRightArrow;": "↗",
	"vartriangleleft;": "⊲",
	"circlearrowright;": "↻",
	"DiacriticalAcute;": "´",
	"DiacriticalGrave;": "`",
	"DiacriticalTilde;": "˜",
	"DoubleRightArrow;": "⇒",
	"DownArrowUpArrow;": "⇵",
	"downharpoonright;": "⇂",
	"EmptySmallSquare;": "◻",
	"GreaterEqualLess;": "⋛",
	"GreaterFullEqual;": "≧",
	"LeftAngleBracket;": "⟨",
	"LeftUpDownVector;": "⥑",
	"LessEqualGreater;": "⋚",
	"NonBreakingSpace;": " ",
	"NotPrecedesEqual;": "⪯̸",
	"NotRightTriangle;": "⋫",
	"NotSucceedsEqual;": "⪰̸",
	"NotSucceedsTilde;": "≿̸",
	"NotSupersetEqual;": "⊉",
	"ntrianglerighteq;": "⋭",
	"rightharpoondown;": "⇁",
	"rightrightarrows;": "⇉",
	"RightTriangleBar;": "⧐",
	"RightUpTeeVector;": "⥜",
	"RightUpVectorBar;": "⥔",
	"twoheadleftarrow;": "↞",
	"UnderParenthesis;": "⏝",
	"UpArrowDownArrow;": "⇅",
	"vartriangleright;": "⊳",
	"blacktriangledown;": "▾",
	"blacktriangleleft;": "◂",
	"DoubleUpDownArrow;": "⇕",
	"DoubleVerticalBar;": "∥",
	"DownLeftTeeVector;": "⥞",
	"DownLeftVectorBar;": "⥖",
	"FilledSmallSquare;": "◼",
	"GreaterSlantEqual;": "⩾",
	"LeftDoubleBracket;": "⟦",
	"LeftDownTeeVector;": "⥡",
	"LeftDownVectorBar;": "⥙",
	"leftrightharpoons;": "⇋",
	"LeftTriangleEqual;": "⊴",
	"NegativeThinSpace;": "​",
	"NotGreaterGreater;": "≫̸",
	"NotLessSlantEqual;": "⩽̸",
	"NotNestedLessLess;": "⪡̸",
	"NotReverseElement;": "∌",
	"NotSquareSuperset;": "⊐̸",
	"NotTildeFullEqual;": "≇",
	"RightAngleBracket;": "⟩",
	"rightleftharpoons;": "⇌",
	"RightUpDownVector;": "⥏",
	"SquareSubsetEqual;": "⊑",
	"twoheadrightarrow;": "↠",
	"VerticalSeparator;": "❘",
	"blacktriangleright;": "▸",
	"DownRightTeeVector;": "⥟",
	"DownRightVectorBar;": "⥗",
	"LongLeftRightArrow;": "⟷",
	"Longleftrightarrow;": "⟺",
	"longleftrightarrow;": "⟷",
	"NegativeThickSpace;": "​",
	"NotLeftTriangleBar;": "⧏̸",
	"PrecedesSlantEqual;": "≼",
	"ReverseEquilibrium;": "⇋",
	"RightDoubleBracket;": "⟧",
	"RightDownTeeVector;": "⥝",
	"RightDownVectorBar;": "⥕",
	"RightTriangleEqual;": "⊵",
	"SquareIntersection;": "⊓",
	"SucceedsSlantEqual;": "≽",
	"DoubleLongLeftArrow;": "⟸",
	"DownLeftRightVector;": "⥐",
	"LeftArrowRightArrow;": "⇆",
	"leftrightsquigarrow;": "↭",
	"NegativeMediumSpace;": "​",
	"NotGreaterFullEqual;": "≧̸",
	"NotRightTriangleBar;": "⧐̸",
	"RightArrowLeftArrow;": "⇄",
	"SquareSupersetEqual;": "⊒",
	"CapitalDifferentialD;": "ⅅ",
	"DoubleLeftRightArrow;": "⇔",
	"DoubleLongRightArrow;": "⟹",
	"EmptyVerySmallSquare;": "▫",
	"NestedGreaterGreater;": "≫",
	"NotDoubleVerticalBar;": "∦",
	"NotGreaterSlantEqual;": "⩾̸",
	"NotLeftTriangleEqual;": "⋬",
	"NotSquareSubsetEqual;": "⋢",
	"OpenCurlyDoubleQuote;": "“",
	"ReverseUpEquilibrium;": "⥯",
	"CloseCurlyDoubleQuote;": "”",
	"DoubleContourIntegral;": "∯",
	"FilledVerySmallSquare;": "▪",
	"NegativeVeryThinSpace;": "​",
	"NotPrecedesSlantEqual;": "⋠",
	"NotRightTriangleEqual;": "⋭",
	"NotSucceedsSlantEqual;": "⋡",
	"DiacriticalDoubleAcute;": "˝",
	"NotSquareSupersetEqual;": "⋣",
	"NotNestedGreaterGreater;": "⪢̸",
	"ClockwiseContourIntegral;": "∲",
	"DoubleLongLeftRightArrow;": "⟺",
	"CounterClockwiseContourIntegral;": "∳"
};

let maxCRNameLength;
const decodeHtml = (rawText, asAttr) => {
  let offset = 0;
  const end = rawText.length;
  let decodedText = "";
  function advance(length) {
    offset += length;
    rawText = rawText.slice(length);
  }
  while (offset < end) {
    const head = /&(?:#x?)?/i.exec(rawText);
    if (!head || offset + head.index >= end) {
      const remaining = end - offset;
      decodedText += rawText.slice(0, remaining);
      advance(remaining);
      break;
    }
    decodedText += rawText.slice(0, head.index);
    advance(head.index);
    if (head[0] === "&") {
      let name = "";
      let value = void 0;
      if (/[0-9a-z]/i.test(rawText[1])) {
        if (!maxCRNameLength) {
          maxCRNameLength = Object.keys(namedCharacterReferences).reduce(
            (max, name2) => Math.max(max, name2.length),
            0
          );
        }
        for (let length = maxCRNameLength; !value && length > 0; --length) {
          name = rawText.slice(1, 1 + length);
          value = namedCharacterReferences[name];
        }
        if (value) {
          const semi = name.endsWith(";");
          if (asAttr && !semi && /[=a-z0-9]/i.test(rawText[name.length + 1] || "")) {
            decodedText += "&" + name;
            advance(1 + name.length);
          } else {
            decodedText += value;
            advance(1 + name.length);
          }
        } else {
          decodedText += "&" + name;
          advance(1 + name.length);
        }
      } else {
        decodedText += "&";
        advance(1);
      }
    } else {
      const hex = head[0] === "&#x";
      const pattern = hex ? /^&#x([0-9a-f]+);?/i : /^&#([0-9]+);?/;
      const body = pattern.exec(rawText);
      if (!body) {
        decodedText += head[0];
        advance(head[0].length);
      } else {
        let cp = Number.parseInt(body[1], hex ? 16 : 10);
        if (cp === 0) {
          cp = 65533;
        } else if (cp > 1114111) {
          cp = 65533;
        } else if (cp >= 55296 && cp <= 57343) {
          cp = 65533;
        } else if (cp >= 64976 && cp <= 65007 || (cp & 65534) === 65534) ; else if (cp >= 1 && cp <= 8 || cp === 11 || cp >= 13 && cp <= 31 || cp >= 127 && cp <= 159) {
          cp = CCR_REPLACEMENTS[cp] || cp;
        }
        decodedText += String.fromCodePoint(cp);
        advance(body[0].length);
      }
    }
  }
  return decodedText;
};
const CCR_REPLACEMENTS = {
  128: 8364,
  130: 8218,
  131: 402,
  132: 8222,
  133: 8230,
  134: 8224,
  135: 8225,
  136: 710,
  137: 8240,
  138: 352,
  139: 8249,
  140: 338,
  142: 381,
  145: 8216,
  146: 8217,
  147: 8220,
  148: 8221,
  149: 8226,
  150: 8211,
  151: 8212,
  152: 732,
  153: 8482,
  154: 353,
  155: 8250,
  156: 339,
  158: 382,
  159: 376
};

const isRawTextContainer = /* @__PURE__ */ makeMap(
  "style,iframe,script,noscript",
  true
);
const parserOptions = {
  isVoidTag,
  isNativeTag: (tag) => isHTMLTag(tag) || isSVGTag(tag),
  isPreTag: (tag) => tag === "pre",
  decodeEntities: decodeHtml,
  isBuiltInComponent: (tag) => {
    if (isBuiltInType(tag, `Transition`)) {
      return TRANSITION;
    } else if (isBuiltInType(tag, `TransitionGroup`)) {
      return TRANSITION_GROUP;
    }
  },
  // https://html.spec.whatwg.org/multipage/parsing.html#tree-construction-dispatcher
  getNamespace(tag, parent) {
    let ns = parent ? parent.ns : 0;
    if (parent && ns === 2) {
      if (parent.tag === "annotation-xml") {
        if (tag === "svg") {
          return 1;
        }
        if (parent.props.some(
          (a) => a.type === 6 && a.name === "encoding" && a.value != null && (a.value.content === "text/html" || a.value.content === "application/xhtml+xml")
        )) {
          ns = 0;
        }
      } else if (/^m(?:[ions]|text)$/.test(parent.tag) && tag !== "mglyph" && tag !== "malignmark") {
        ns = 0;
      }
    } else if (parent && ns === 1) {
      if (parent.tag === "foreignObject" || parent.tag === "desc" || parent.tag === "title") {
        ns = 0;
      }
    }
    if (ns === 0) {
      if (tag === "svg") {
        return 1;
      }
      if (tag === "math") {
        return 2;
      }
    }
    return ns;
  },
  // https://html.spec.whatwg.org/multipage/parsing.html#parsing-html-fragments
  getTextMode({ tag, ns }) {
    if (ns === 0) {
      if (tag === "textarea" || tag === "title") {
        return 1;
      }
      if (isRawTextContainer(tag)) {
        return 2;
      }
    }
    return 0;
  }
};

const transformStyle = (node) => {
  if (node.type === 1) {
    node.props.forEach((p, i) => {
      if (p.type === 6 && p.name === "style" && p.value) {
        node.props[i] = {
          type: 7,
          name: `bind`,
          arg: createSimpleExpression(`style`, true, p.loc),
          exp: parseInlineCSS(p.value.content, p.loc),
          modifiers: [],
          loc: p.loc
        };
      }
    });
  }
};
const parseInlineCSS = (cssText, loc) => {
  const normalized = parseStringStyle(cssText);
  return createSimpleExpression(
    JSON.stringify(normalized),
    false,
    loc,
    3
  );
};

function createDOMCompilerError(code, loc) {
  return createCompilerError(
    code,
    loc,
    DOMErrorMessages 
  );
}
const DOMErrorMessages = {
  [53]: `v-html is missing expression.`,
  [54]: `v-html will override element children.`,
  [55]: `v-text is missing expression.`,
  [56]: `v-text will override element children.`,
  [57]: `v-model can only be used on <input>, <textarea> and <select> elements.`,
  [58]: `v-model argument is not supported on plain elements.`,
  [59]: `v-model cannot be used on file inputs since they are read-only. Use a v-on:change listener instead.`,
  [60]: `Unnecessary value binding used alongside v-model. It will interfere with v-model's behavior.`,
  [61]: `v-show is missing expression.`,
  [62]: `<Transition> expects exactly one child element or component.`,
  [63]: `Tags with side effect (<script> and <style>) are ignored in client component templates.`
};

const transformVHtml = (dir, node, context) => {
  const { exp, loc } = dir;
  if (!exp) {
    context.onError(
      createDOMCompilerError(53, loc)
    );
  }
  if (node.children.length) {
    context.onError(
      createDOMCompilerError(54, loc)
    );
    node.children.length = 0;
  }
  return {
    props: [
      createObjectProperty(
        createSimpleExpression(`innerHTML`, true, loc),
        exp || createSimpleExpression("", true)
      )
    ]
  };
};

const transformVText = (dir, node, context) => {
  const { exp, loc } = dir;
  if (!exp) {
    context.onError(
      createDOMCompilerError(55, loc)
    );
  }
  if (node.children.length) {
    context.onError(
      createDOMCompilerError(56, loc)
    );
    node.children.length = 0;
  }
  return {
    props: [
      createObjectProperty(
        createSimpleExpression(`textContent`, true),
        exp ? getConstantType(exp, context) > 0 ? exp : createCallExpression(
          context.helperString(TO_DISPLAY_STRING),
          [exp],
          loc
        ) : createSimpleExpression("", true)
      )
    ]
  };
};

const transformModel = (dir, node, context) => {
  const baseResult = transformModel$1(dir, node, context);
  if (!baseResult.props.length || node.tagType === 1) {
    return baseResult;
  }
  if (dir.arg) {
    context.onError(
      createDOMCompilerError(
        58,
        dir.arg.loc
      )
    );
  }
  function checkDuplicatedValue() {
    const value = findProp(node, "value");
    if (value) {
      context.onError(
        createDOMCompilerError(
          60,
          value.loc
        )
      );
    }
  }
  const { tag } = node;
  const isCustomElement = context.isCustomElement(tag);
  if (tag === "input" || tag === "textarea" || tag === "select" || isCustomElement) {
    let directiveToUse = V_MODEL_TEXT;
    let isInvalidType = false;
    if (tag === "input" || isCustomElement) {
      const type = findProp(node, `type`);
      if (type) {
        if (type.type === 7) {
          directiveToUse = V_MODEL_DYNAMIC;
        } else if (type.value) {
          switch (type.value.content) {
            case "radio":
              directiveToUse = V_MODEL_RADIO;
              break;
            case "checkbox":
              directiveToUse = V_MODEL_CHECKBOX;
              break;
            case "file":
              isInvalidType = true;
              context.onError(
                createDOMCompilerError(
                  59,
                  dir.loc
                )
              );
              break;
            default:
              checkDuplicatedValue();
              break;
          }
        }
      } else if (hasDynamicKeyVBind(node)) {
        directiveToUse = V_MODEL_DYNAMIC;
      } else {
        checkDuplicatedValue();
      }
    } else if (tag === "select") {
      directiveToUse = V_MODEL_SELECT;
    } else {
      checkDuplicatedValue();
    }
    if (!isInvalidType) {
      baseResult.needRuntime = context.helper(directiveToUse);
    }
  } else {
    context.onError(
      createDOMCompilerError(
        57,
        dir.loc
      )
    );
  }
  baseResult.props = baseResult.props.filter(
    (p) => !(p.key.type === 4 && p.key.content === "modelValue")
  );
  return baseResult;
};

const isEventOptionModifier = /* @__PURE__ */ makeMap(`passive,once,capture`);
const isNonKeyModifier = /* @__PURE__ */ makeMap(
  // event propagation management
  `stop,prevent,self,ctrl,shift,alt,meta,exact,middle`
);
const maybeKeyModifier = /* @__PURE__ */ makeMap("left,right");
const isKeyboardEvent = /* @__PURE__ */ makeMap(
  `onkeyup,onkeydown,onkeypress`,
  true
);
const resolveModifiers = (key, modifiers, context, loc) => {
  const keyModifiers = [];
  const nonKeyModifiers = [];
  const eventOptionModifiers = [];
  for (let i = 0; i < modifiers.length; i++) {
    const modifier = modifiers[i];
    if (isEventOptionModifier(modifier)) {
      eventOptionModifiers.push(modifier);
    } else {
      if (maybeKeyModifier(modifier)) {
        if (isStaticExp(key)) {
          if (isKeyboardEvent(key.content)) {
            keyModifiers.push(modifier);
          } else {
            nonKeyModifiers.push(modifier);
          }
        } else {
          keyModifiers.push(modifier);
          nonKeyModifiers.push(modifier);
        }
      } else {
        if (isNonKeyModifier(modifier)) {
          nonKeyModifiers.push(modifier);
        } else {
          keyModifiers.push(modifier);
        }
      }
    }
  }
  return {
    keyModifiers,
    nonKeyModifiers,
    eventOptionModifiers
  };
};
const transformClick = (key, event) => {
  const isStaticClick = isStaticExp(key) && key.content.toLowerCase() === "onclick";
  return isStaticClick ? createSimpleExpression(event, true) : key.type !== 4 ? createCompoundExpression([
    `(`,
    key,
    `) === "onClick" ? "${event}" : (`,
    key,
    `)`
  ]) : key;
};
const transformOn = (dir, node, context) => {
  return transformOn$1(dir, node, context, (baseResult) => {
    const { modifiers } = dir;
    if (!modifiers.length)
      return baseResult;
    let { key, value: handlerExp } = baseResult.props[0];
    const { keyModifiers, nonKeyModifiers, eventOptionModifiers } = resolveModifiers(key, modifiers, context, dir.loc);
    if (nonKeyModifiers.includes("right")) {
      key = transformClick(key, `onContextmenu`);
    }
    if (nonKeyModifiers.includes("middle")) {
      key = transformClick(key, `onMouseup`);
    }
    if (nonKeyModifiers.length) {
      handlerExp = createCallExpression(context.helper(V_ON_WITH_MODIFIERS), [
        handlerExp,
        JSON.stringify(nonKeyModifiers)
      ]);
    }
    if (keyModifiers.length && // if event name is dynamic, always wrap with keys guard
    (!isStaticExp(key) || isKeyboardEvent(key.content))) {
      handlerExp = createCallExpression(context.helper(V_ON_WITH_KEYS), [
        handlerExp,
        JSON.stringify(keyModifiers)
      ]);
    }
    if (eventOptionModifiers.length) {
      const modifierPostfix = eventOptionModifiers.map(capitalize$1).join("");
      key = isStaticExp(key) ? createSimpleExpression(`${key.content}${modifierPostfix}`, true) : createCompoundExpression([`(`, key, `) + "${modifierPostfix}"`]);
    }
    return {
      props: [createObjectProperty(key, handlerExp)]
    };
  });
};

const transformShow = (dir, node, context) => {
  const { exp, loc } = dir;
  if (!exp) {
    context.onError(
      createDOMCompilerError(61, loc)
    );
  }
  return {
    props: [],
    needRuntime: context.helper(V_SHOW)
  };
};

const transformTransition = (node, context) => {
  if (node.type === 1 && node.tagType === 1) {
    const component = context.isBuiltInComponent(node.tag);
    if (component === TRANSITION) {
      return () => {
        if (!node.children.length) {
          return;
        }
        if (hasMultipleChildren(node)) {
          context.onError(
            createDOMCompilerError(
              62,
              {
                start: node.children[0].loc.start,
                end: node.children[node.children.length - 1].loc.end,
                source: ""
              }
            )
          );
        }
        const child = node.children[0];
        if (child.type === 1) {
          for (const p of child.props) {
            if (p.type === 7 && p.name === "show") {
              node.props.push({
                type: 6,
                name: "persisted",
                value: void 0,
                loc: node.loc
              });
            }
          }
        }
      };
    }
  }
};
function hasMultipleChildren(node) {
  const children = node.children = node.children.filter(
    (c) => c.type !== 3 && !(c.type === 2 && !c.content.trim())
  );
  const child = children[0];
  return children.length !== 1 || child.type === 11 || child.type === 9 && child.branches.some(hasMultipleChildren);
}

const expReplaceRE = /__VUE_EXP_START__(.*?)__VUE_EXP_END__/g;
const stringifyStatic = (children, context, parent) => {
  if (context.scopes.vSlot > 0) {
    return;
  }
  let nc = 0;
  let ec = 0;
  const currentChunk = [];
  const stringifyCurrentChunk = (currentIndex) => {
    if (nc >= 20 || ec >= 5) {
      const staticCall = createCallExpression(context.helper(CREATE_STATIC), [
        JSON.stringify(
          currentChunk.map((node) => stringifyNode(node, context)).join("")
        ).replace(expReplaceRE, `" + $1 + "`),
        // the 2nd argument indicates the number of DOM nodes this static vnode
        // will insert / hydrate
        String(currentChunk.length)
      ]);
      replaceHoist(currentChunk[0], staticCall, context);
      if (currentChunk.length > 1) {
        for (let i2 = 1; i2 < currentChunk.length; i2++) {
          replaceHoist(currentChunk[i2], null, context);
        }
        const deleteCount = currentChunk.length - 1;
        children.splice(currentIndex - currentChunk.length + 1, deleteCount);
        return deleteCount;
      }
    }
    return 0;
  };
  let i = 0;
  for (; i < children.length; i++) {
    const child = children[i];
    const hoisted = getHoistedNode(child);
    if (hoisted) {
      const node = child;
      const result = analyzeNode(node);
      if (result) {
        nc += result[0];
        ec += result[1];
        currentChunk.push(node);
        continue;
      }
    }
    i -= stringifyCurrentChunk(i);
    nc = 0;
    ec = 0;
    currentChunk.length = 0;
  }
  stringifyCurrentChunk(i);
};
const getHoistedNode = (node) => (node.type === 1 && node.tagType === 0 || node.type == 12) && node.codegenNode && node.codegenNode.type === 4 && node.codegenNode.hoisted;
const dataAriaRE = /^(data|aria)-/;
const isStringifiableAttr = (name, ns) => {
  return (ns === 0 ? isKnownHtmlAttr(name) : ns === 1 ? isKnownSvgAttr(name) : false) || dataAriaRE.test(name);
};
const replaceHoist = (node, replacement, context) => {
  const hoistToReplace = node.codegenNode.hoisted;
  context.hoists[context.hoists.indexOf(hoistToReplace)] = replacement;
};
const isNonStringifiable = /* @__PURE__ */ makeMap(
  `caption,thead,tr,th,tbody,td,tfoot,colgroup,col`
);
function analyzeNode(node) {
  if (node.type === 1 && isNonStringifiable(node.tag)) {
    return false;
  }
  if (node.type === 12) {
    return [1, 0];
  }
  let nc = 1;
  let ec = node.props.length > 0 ? 1 : 0;
  let bailed = false;
  const bail = () => {
    bailed = true;
    return false;
  };
  function walk(node2) {
    for (let i = 0; i < node2.props.length; i++) {
      const p = node2.props[i];
      if (p.type === 6 && !isStringifiableAttr(p.name, node2.ns)) {
        return bail();
      }
      if (p.type === 7 && p.name === "bind") {
        if (p.arg && (p.arg.type === 8 || p.arg.isStatic && !isStringifiableAttr(p.arg.content, node2.ns))) {
          return bail();
        }
        if (p.exp && (p.exp.type === 8 || p.exp.constType < 3)) {
          return bail();
        }
      }
    }
    for (let i = 0; i < node2.children.length; i++) {
      nc++;
      const child = node2.children[i];
      if (child.type === 1) {
        if (child.props.length > 0) {
          ec++;
        }
        walk(child);
        if (bailed) {
          return false;
        }
      }
    }
    return true;
  }
  return walk(node) ? [nc, ec] : false;
}
function stringifyNode(node, context) {
  if (isString$2(node)) {
    return node;
  }
  if (isSymbol$1(node)) {
    return ``;
  }
  switch (node.type) {
    case 1:
      return stringifyElement(node, context);
    case 2:
      return escapeHtml(node.content);
    case 3:
      return `<!--${escapeHtml(node.content)}-->`;
    case 5:
      return escapeHtml(toDisplayString(evaluateConstant(node.content)));
    case 8:
      return escapeHtml(evaluateConstant(node));
    case 12:
      return stringifyNode(node.content, context);
    default:
      return "";
  }
}
function stringifyElement(node, context) {
  let res = `<${node.tag}`;
  let innerHTML = "";
  for (let i = 0; i < node.props.length; i++) {
    const p = node.props[i];
    if (p.type === 6) {
      res += ` ${p.name}`;
      if (p.value) {
        res += `="${escapeHtml(p.value.content)}"`;
      }
    } else if (p.type === 7) {
      if (p.name === "bind") {
        const exp = p.exp;
        if (exp.content[0] === "_") {
          res += ` ${p.arg.content}="__VUE_EXP_START__${exp.content}__VUE_EXP_END__"`;
          continue;
        }
        if (isBooleanAttr(p.arg.content) && exp.content === "false") {
          continue;
        }
        let evaluated = evaluateConstant(exp);
        if (evaluated != null) {
          const arg = p.arg && p.arg.content;
          if (arg === "class") {
            evaluated = normalizeClass(evaluated);
          } else if (arg === "style") {
            evaluated = stringifyStyle(normalizeStyle(evaluated));
          }
          res += ` ${p.arg.content}="${escapeHtml(
            evaluated
          )}"`;
        }
      } else if (p.name === "html") {
        innerHTML = evaluateConstant(p.exp);
      } else if (p.name === "text") {
        innerHTML = escapeHtml(
          toDisplayString(evaluateConstant(p.exp))
        );
      }
    }
  }
  if (context.scopeId) {
    res += ` ${context.scopeId}`;
  }
  res += `>`;
  if (innerHTML) {
    res += innerHTML;
  } else {
    for (let i = 0; i < node.children.length; i++) {
      res += stringifyNode(node.children[i], context);
    }
  }
  if (!isVoidTag(node.tag)) {
    res += `</${node.tag}>`;
  }
  return res;
}
function evaluateConstant(exp) {
  if (exp.type === 4) {
    return new Function(`return (${exp.content})`)();
  } else {
    let res = ``;
    exp.children.forEach((c) => {
      if (isString$2(c) || isSymbol$1(c)) {
        return;
      }
      if (c.type === 2) {
        res += c.content;
      } else if (c.type === 5) {
        res += toDisplayString(evaluateConstant(c.content));
      } else {
        res += evaluateConstant(c);
      }
    });
    return res;
  }
}

const ignoreSideEffectTags = (node, context) => {
  if (node.type === 1 && node.tagType === 0 && (node.tag === "script" || node.tag === "style")) {
    context.onError(
      createDOMCompilerError(
        63,
        node.loc
      )
    );
    context.removeNode();
  }
};

const DOMNodeTransforms = [
  transformStyle,
  ...[transformTransition] 
];
const DOMDirectiveTransforms = {
  cloak: noopDirectiveTransform,
  html: transformVHtml,
  text: transformVText,
  model: transformModel,
  // override compiler-core
  on: transformOn,
  // override compiler-core
  show: transformShow
};
function compile$1(template, options = {}) {
  return baseCompile(
    template,
    extend({}, parserOptions, options, {
      nodeTransforms: [
        // ignore <script> and <tag>
        // this is not put inside DOMNodeTransforms because that list is used
        // by compiler-ssr to generate vnode fallback branches
        ignoreSideEffectTags,
        ...DOMNodeTransforms,
        ...options.nodeTransforms || []
      ],
      directiveTransforms: extend(
        {},
        DOMDirectiveTransforms,
        options.directiveTransforms || {}
      ),
      transformHoist: stringifyStatic
    })
  );
}
function parse$8(template, options = {}) {
  return baseParse(template, extend({}, parserOptions, options));
}

var CompilerDOM = /*#__PURE__*/Object.freeze({
  __proto__: null,
  BASE_TRANSITION: BASE_TRANSITION,
  CAMELIZE: CAMELIZE,
  CAPITALIZE: CAPITALIZE,
  CREATE_BLOCK: CREATE_BLOCK,
  CREATE_COMMENT: CREATE_COMMENT,
  CREATE_ELEMENT_BLOCK: CREATE_ELEMENT_BLOCK,
  CREATE_ELEMENT_VNODE: CREATE_ELEMENT_VNODE,
  CREATE_SLOTS: CREATE_SLOTS,
  CREATE_STATIC: CREATE_STATIC,
  CREATE_TEXT: CREATE_TEXT,
  CREATE_VNODE: CREATE_VNODE,
  DOMDirectiveTransforms: DOMDirectiveTransforms,
  DOMNodeTransforms: DOMNodeTransforms,
  FRAGMENT: FRAGMENT,
  GUARD_REACTIVE_PROPS: GUARD_REACTIVE_PROPS,
  IS_MEMO_SAME: IS_MEMO_SAME,
  IS_REF: IS_REF,
  KEEP_ALIVE: KEEP_ALIVE,
  MERGE_PROPS: MERGE_PROPS,
  NORMALIZE_CLASS: NORMALIZE_CLASS,
  NORMALIZE_PROPS: NORMALIZE_PROPS,
  NORMALIZE_STYLE: NORMALIZE_STYLE,
  OPEN_BLOCK: OPEN_BLOCK,
  POP_SCOPE_ID: POP_SCOPE_ID,
  PUSH_SCOPE_ID: PUSH_SCOPE_ID,
  RENDER_LIST: RENDER_LIST,
  RENDER_SLOT: RENDER_SLOT,
  RESOLVE_COMPONENT: RESOLVE_COMPONENT,
  RESOLVE_DIRECTIVE: RESOLVE_DIRECTIVE,
  RESOLVE_DYNAMIC_COMPONENT: RESOLVE_DYNAMIC_COMPONENT,
  RESOLVE_FILTER: RESOLVE_FILTER,
  SET_BLOCK_TRACKING: SET_BLOCK_TRACKING,
  SUSPENSE: SUSPENSE,
  TELEPORT: TELEPORT,
  TO_DISPLAY_STRING: TO_DISPLAY_STRING,
  TO_HANDLERS: TO_HANDLERS,
  TO_HANDLER_KEY: TO_HANDLER_KEY,
  TRANSITION: TRANSITION,
  TRANSITION_GROUP: TRANSITION_GROUP,
  TS_NODE_TYPES: TS_NODE_TYPES,
  UNREF: UNREF,
  V_MODEL_CHECKBOX: V_MODEL_CHECKBOX,
  V_MODEL_DYNAMIC: V_MODEL_DYNAMIC,
  V_MODEL_RADIO: V_MODEL_RADIO,
  V_MODEL_SELECT: V_MODEL_SELECT,
  V_MODEL_TEXT: V_MODEL_TEXT,
  V_ON_WITH_KEYS: V_ON_WITH_KEYS,
  V_ON_WITH_MODIFIERS: V_ON_WITH_MODIFIERS,
  V_SHOW: V_SHOW,
  WITH_CTX: WITH_CTX,
  WITH_DIRECTIVES: WITH_DIRECTIVES,
  WITH_MEMO: WITH_MEMO,
  advancePositionWithClone: advancePositionWithClone,
  advancePositionWithMutation: advancePositionWithMutation,
  assert: assert,
  baseCompile: baseCompile,
  baseParse: baseParse,
  buildDirectiveArgs: buildDirectiveArgs,
  buildProps: buildProps,
  buildSlots: buildSlots,
  checkCompatEnabled: checkCompatEnabled,
  compile: compile$1,
  convertToBlock: convertToBlock,
  createArrayExpression: createArrayExpression,
  createAssignmentExpression: createAssignmentExpression,
  createBlockStatement: createBlockStatement,
  createCacheExpression: createCacheExpression,
  createCallExpression: createCallExpression,
  createCompilerError: createCompilerError,
  createCompoundExpression: createCompoundExpression,
  createConditionalExpression: createConditionalExpression,
  createDOMCompilerError: createDOMCompilerError,
  createForLoopParams: createForLoopParams,
  createFunctionExpression: createFunctionExpression,
  createIfStatement: createIfStatement,
  createInterpolation: createInterpolation,
  createObjectExpression: createObjectExpression,
  createObjectProperty: createObjectProperty,
  createReturnStatement: createReturnStatement,
  createRoot: createRoot,
  createSequenceExpression: createSequenceExpression,
  createSimpleExpression: createSimpleExpression,
  createStructuralDirectiveTransform: createStructuralDirectiveTransform,
  createTemplateLiteral: createTemplateLiteral,
  createTransformContext: createTransformContext,
  createVNodeCall: createVNodeCall,
  extractIdentifiers: extractIdentifiers,
  findDir: findDir,
  findProp: findProp,
  generate: generate,
  generateCodeFrame: generateCodeFrame,
  getBaseTransformPreset: getBaseTransformPreset,
  getConstantType: getConstantType,
  getInnerRange: getInnerRange,
  getMemoedVNodeCall: getMemoedVNodeCall,
  getVNodeBlockHelper: getVNodeBlockHelper,
  getVNodeHelper: getVNodeHelper,
  hasDynamicKeyVBind: hasDynamicKeyVBind,
  hasScopeRef: hasScopeRef,
  helperNameMap: helperNameMap,
  injectProp: injectProp,
  isBuiltInType: isBuiltInType,
  isCoreComponent: isCoreComponent,
  isFunctionType: isFunctionType,
  isInDestructureAssignment: isInDestructureAssignment,
  isMemberExpression: isMemberExpression,
  isMemberExpressionBrowser: isMemberExpressionBrowser,
  isMemberExpressionNode: isMemberExpressionNode,
  isReferencedIdentifier: isReferencedIdentifier,
  isSimpleIdentifier: isSimpleIdentifier,
  isSlotOutlet: isSlotOutlet,
  isStaticArgOf: isStaticArgOf,
  isStaticExp: isStaticExp,
  isStaticProperty: isStaticProperty,
  isStaticPropertyKey: isStaticPropertyKey,
  isTemplateNode: isTemplateNode,
  isText: isText$1,
  isVSlot: isVSlot,
  locStub: locStub,
  noopDirectiveTransform: noopDirectiveTransform,
  parse: parse$8,
  parserOptions: parserOptions,
  processExpression: processExpression,
  processFor: processFor,
  processIf: processIf,
  processSlotOutlet: processSlotOutlet,
  registerRuntimeHelpers: registerRuntimeHelpers,
  resolveComponentType: resolveComponentType,
  stringifyExpression: stringifyExpression,
  toValidAssetId: toValidAssetId,
  trackSlotScopes: trackSlotScopes,
  trackVForSlotScopes: trackVForSlotScopes,
  transform: transform$1,
  transformBind: transformBind,
  transformElement: transformElement,
  transformExpression: transformExpression,
  transformModel: transformModel$1,
  transformOn: transformOn$1,
  transformStyle: transformStyle,
  traverseNode: traverseNode,
  walkBlockDeclarations: walkBlockDeclarations,
  walkFunctionParams: walkFunctionParams,
  walkIdentifiers: walkIdentifiers,
  warnDeprecation: warnDeprecation
});

// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.

// resolves . and .. elements in a path array with directory names there
// must be no slashes, empty elements, or device names (c:\) in the array
// (so also no leading and trailing slashes - it does not distinguish
// relative and absolute paths)
function normalizeArray(parts, allowAboveRoot) {
  // if the path tries to go above the root, `up` ends up > 0
  var up = 0;
  for (var i = parts.length - 1; i >= 0; i--) {
    var last = parts[i];
    if (last === '.') {
      parts.splice(i, 1);
    } else if (last === '..') {
      parts.splice(i, 1);
      up++;
    } else if (up) {
      parts.splice(i, 1);
      up--;
    }
  }

  // if the path is allowed to go above the root, restore leading ..s
  if (allowAboveRoot) {
    for (; up--; up) {
      parts.unshift('..');
    }
  }

  return parts;
}

// Split a filename into [root, dir, basename, ext], unix version
// 'root' is just a slash, or nothing.
var splitPathRe =
    /^(\/?|)([\s\S]*?)((?:\.{1,2}|[^\/]+?|)(\.[^.\/]*|))(?:[\/]*)$/;
var splitPath = function(filename) {
  return splitPathRe.exec(filename).slice(1);
};

// path.resolve([from ...], to)
// posix version
function resolve$2() {
  var resolvedPath = '',
      resolvedAbsolute = false;

  for (var i = arguments.length - 1; i >= -1 && !resolvedAbsolute; i--) {
    var path = (i >= 0) ? arguments[i] : '/';

    // Skip empty and invalid entries
    if (typeof path !== 'string') {
      throw new TypeError('Arguments to path.resolve must be strings');
    } else if (!path) {
      continue;
    }

    resolvedPath = path + '/' + resolvedPath;
    resolvedAbsolute = path.charAt(0) === '/';
  }

  // At this point the path should be resolved to a full absolute path, but
  // handle relative paths to be safe (might happen when process.cwd() fails)

  // Normalize the path
  resolvedPath = normalizeArray(filter(resolvedPath.split('/'), function(p) {
    return !!p;
  }), !resolvedAbsolute).join('/');

  return ((resolvedAbsolute ? '/' : '') + resolvedPath) || '.';
}
// path.normalize(path)
// posix version
function normalize$1(path) {
  var isPathAbsolute = isAbsolute$1(path),
      trailingSlash = substr(path, -1) === '/';

  // Normalize the path
  path = normalizeArray(filter(path.split('/'), function(p) {
    return !!p;
  }), !isPathAbsolute).join('/');

  if (!path && !isPathAbsolute) {
    path = '.';
  }
  if (path && trailingSlash) {
    path += '/';
  }

  return (isPathAbsolute ? '/' : '') + path;
}
// posix version
function isAbsolute$1(path) {
  return path.charAt(0) === '/';
}

// posix version
function join$1() {
  var paths = Array.prototype.slice.call(arguments, 0);
  return normalize$1(filter(paths, function(p, index) {
    if (typeof p !== 'string') {
      throw new TypeError('Arguments to path.join must be strings');
    }
    return p;
  }).join('/'));
}


// path.relative(from, to)
// posix version
function relative$1(from, to) {
  from = resolve$2(from).substr(1);
  to = resolve$2(to).substr(1);

  function trim(arr) {
    var start = 0;
    for (; start < arr.length; start++) {
      if (arr[start] !== '') break;
    }

    var end = arr.length - 1;
    for (; end >= 0; end--) {
      if (arr[end] !== '') break;
    }

    if (start > end) return [];
    return arr.slice(start, end - start + 1);
  }

  var fromParts = trim(from.split('/'));
  var toParts = trim(to.split('/'));

  var length = Math.min(fromParts.length, toParts.length);
  var samePartsLength = length;
  for (var i = 0; i < length; i++) {
    if (fromParts[i] !== toParts[i]) {
      samePartsLength = i;
      break;
    }
  }

  var outputParts = [];
  for (var i = samePartsLength; i < fromParts.length; i++) {
    outputParts.push('..');
  }

  outputParts = outputParts.concat(toParts.slice(samePartsLength));

  return outputParts.join('/');
}

var sep$1 = '/';
var delimiter$1 = ':';

function dirname$2(path) {
  var result = splitPath(path),
      root = result[0],
      dir = result[1];

  if (!root && !dir) {
    // No dirname whatsoever
    return '.';
  }

  if (dir) {
    // It has a dirname, strip trailing slash
    dir = dir.substr(0, dir.length - 1);
  }

  return root + dir;
}

function basename(path, ext) {
  var f = splitPath(path)[2];
  // TODO: make this comparison case-insensitive on windows?
  if (ext && f.substr(-1 * ext.length) === ext) {
    f = f.substr(0, f.length - ext.length);
  }
  return f;
}


function extname(path) {
  return splitPath(path)[3];
}
var path = {
  extname: extname,
  basename: basename,
  dirname: dirname$2,
  sep: sep$1,
  delimiter: delimiter$1,
  relative: relative$1,
  join: join$1,
  isAbsolute: isAbsolute$1,
  normalize: normalize$1,
  resolve: resolve$2
};
function filter (xs, f) {
    if (xs.filter) return xs.filter(f);
    var res = [];
    for (var i = 0; i < xs.length; i++) {
        if (f(xs[i], i, xs)) res.push(xs[i]);
    }
    return res;
}

// String.prototype.substr - negative index don't work in IE8
var substr = 'ab'.substr(-1) === 'b' ?
    function (str, start, len) { return str.substr(start, len) } :
    function (str, start, len) {
        if (start < 0) start = str.length + start;
        return str.substr(start, len);
    }
;

var _polyfillNode_path = /*#__PURE__*/Object.freeze({
  __proto__: null,
  basename: basename,
  default: path,
  delimiter: delimiter$1,
  dirname: dirname$2,
  extname: extname,
  isAbsolute: isAbsolute$1,
  join: join$1,
  normalize: normalize$1,
  relative: relative$1,
  resolve: resolve$2,
  sep: sep$1
});

const UNKNOWN_TYPE = "Unknown";
function resolveObjectKey(node, computed) {
  switch (node.type) {
    case "StringLiteral":
    case "NumericLiteral":
      return String(node.value);
    case "Identifier":
      if (!computed)
        return node.name;
  }
  return void 0;
}
function concatStrings(strs) {
  return strs.filter((s) => !!s).join(", ");
}
function isLiteralNode(node) {
  return node.type.endsWith("Literal");
}
function unwrapTSNode(node) {
  if (TS_NODE_TYPES.includes(node.type)) {
    return unwrapTSNode(node.expression);
  } else {
    return node;
  }
}
function isCallOf(node, test) {
  return !!(node && test && node.type === "CallExpression" && node.callee.type === "Identifier" && (typeof test === "string" ? node.callee.name === test : test(node.callee.name)));
}
function toRuntimeTypeString(types) {
  return types.length > 1 ? `[${types.join(", ")}]` : types[0];
}
function getImportedName(specifier) {
  if (specifier.type === "ImportSpecifier")
    return specifier.imported.type === "Identifier" ? specifier.imported.name : specifier.imported.value;
  else if (specifier.type === "ImportNamespaceSpecifier")
    return "*";
  return "default";
}
function getId(node) {
  return node.type === "Identifier" ? node.name : node.type === "StringLiteral" ? node.value : null;
}
const normalize = (path.posix || path).normalize;
const windowsSlashRE = /\\/g;
function normalizePath(p) {
  return normalize(p.replace(windowsSlashRE, "/"));
}
const joinPaths = (path.posix || path).join;
const escapeSymbolsRE = /[ !"#$%&'()*+,./:;<=>?@[\\\]^`{|}~]/g;
function getEscapedKey(key) {
  return escapeSymbolsRE.test(key) ? JSON.stringify(key) : key;
}

function pad$1 (hash, len) {
  while (hash.length < len) {
    hash = '0' + hash;
  }
  return hash;
}

function fold (hash, text) {
  var i;
  var chr;
  var len;
  if (text.length === 0) {
    return hash;
  }
  for (i = 0, len = text.length; i < len; i++) {
    chr = text.charCodeAt(i);
    hash = ((hash << 5) - hash) + chr;
    hash |= 0;
  }
  return hash < 0 ? hash * -2 : hash;
}

function foldObject (hash, o, seen) {
  return Object.keys(o).sort().reduce(foldKey, hash);
  function foldKey (hash, key) {
    return foldValue(hash, o[key], key, seen);
  }
}

function foldValue (input, value, key, seen) {
  var hash = fold(fold(fold(input, key), toString$2(value)), typeof value);
  if (value === null) {
    return fold(hash, 'null');
  }
  if (value === undefined) {
    return fold(hash, 'undefined');
  }
  if (typeof value === 'object' || typeof value === 'function') {
    if (seen.indexOf(value) !== -1) {
      return fold(hash, '[Circular]' + key);
    }
    seen.push(value);

    var objHash = foldObject(hash, value, seen);

    if (!('valueOf' in value) || typeof value.valueOf !== 'function') {
      return objHash;
    }

    try {
      return fold(objHash, String(value.valueOf()))
    } catch (err) {
      return fold(objHash, '[valueOf exception]' + (err.stack || err.message))
    }
  }
  return fold(hash, value.toString());
}

function toString$2 (o) {
  return Object.prototype.toString.call(o);
}

function sum (o) {
  return pad$1(foldValue(0, o, '', []).toString(16), 8);
}

var hashSum = sum;

var hash = hashSum;

const CSS_VARS_HELPER = `useCssVars`;
function genCssVarsFromList(vars, id, isProd, isSSR = false) {
  return `{
  ${vars.map(
    (key) => `"${isSSR ? `--` : ``}${genVarName(id, key, isProd)}": (${key})`
  ).join(",\n  ")}
}`;
}
function genVarName(id, raw, isProd) {
  if (isProd) {
    return hash(id + raw);
  } else {
    return `${id}-${raw.replace(escapeSymbolsRE, (s) => `\\${s}`)}`;
  }
}
function normalizeExpression(exp) {
  exp = exp.trim();
  if (exp[0] === `'` && exp[exp.length - 1] === `'` || exp[0] === `"` && exp[exp.length - 1] === `"`) {
    return exp.slice(1, -1);
  }
  return exp;
}
const vBindRE = /v-bind\s*\(/g;
function parseCssVars(sfc) {
  const vars = [];
  sfc.styles.forEach((style) => {
    let match;
    const content = style.content.replace(/\/\*([\s\S]*?)\*\//g, "");
    while (match = vBindRE.exec(content)) {
      const start = match.index + match[0].length;
      const end = lexBinding(content, start);
      if (end !== null) {
        const variable = normalizeExpression(content.slice(start, end));
        if (!vars.includes(variable)) {
          vars.push(variable);
        }
      }
    }
  });
  return vars;
}
function lexBinding(content, start) {
  let state = 0 /* inParens */;
  let parenDepth = 0;
  for (let i = start; i < content.length; i++) {
    const char = content.charAt(i);
    switch (state) {
      case 0 /* inParens */:
        if (char === `'`) {
          state = 1 /* inSingleQuoteString */;
        } else if (char === `"`) {
          state = 2 /* inDoubleQuoteString */;
        } else if (char === `(`) {
          parenDepth++;
        } else if (char === `)`) {
          if (parenDepth > 0) {
            parenDepth--;
          } else {
            return i;
          }
        }
        break;
      case 1 /* inSingleQuoteString */:
        if (char === `'`) {
          state = 0 /* inParens */;
        }
        break;
      case 2 /* inDoubleQuoteString */:
        if (char === `"`) {
          state = 0 /* inParens */;
        }
        break;
    }
  }
  return null;
}
const cssVarsPlugin = (opts) => {
  const { id, isProd } = opts;
  return {
    postcssPlugin: "vue-sfc-vars",
    Declaration(decl) {
      const value = decl.value;
      if (vBindRE.test(value)) {
        vBindRE.lastIndex = 0;
        let transformed = "";
        let lastIndex = 0;
        let match;
        while (match = vBindRE.exec(value)) {
          const start = match.index + match[0].length;
          const end = lexBinding(value, start);
          if (end !== null) {
            const variable = normalizeExpression(value.slice(start, end));
            transformed += value.slice(lastIndex, match.index) + `var(--${genVarName(id, variable, isProd)})`;
            lastIndex = end + 1;
          }
        }
        decl.value = transformed + value.slice(lastIndex);
      }
    }
  };
};
cssVarsPlugin.postcss = true;
function genCssVarsCode(vars, bindings, id, isProd) {
  const varsExp = genCssVarsFromList(vars, id, isProd);
  const exp = createSimpleExpression(varsExp, false);
  const context = createTransformContext(createRoot([]), {
    prefixIdentifiers: true,
    inline: true,
    bindingMetadata: bindings.__isScriptSetup === false ? void 0 : bindings
  });
  const transformed = processExpression(exp, context);
  const transformedString = transformed.type === 4 ? transformed.content : transformed.children.map((c) => {
    return typeof c === "string" ? c : c.content;
  }).join("");
  return `_${CSS_VARS_HELPER}(_ctx => (${transformedString}))`;
}
function genNormalScriptCssVarsCode(cssVars, bindings, id, isProd, defaultVar) {
  return `
import { ${CSS_VARS_HELPER} as _${CSS_VARS_HELPER} } from 'vue'
const __injectCSSVars__ = () => {
${genCssVarsCode(
    cssVars,
    bindings,
    id,
    isProd
  )}}
const __setup__ = ${defaultVar}.setup
${defaultVar}.setup = __setup__
  ? (props, ctx) => { __injectCSSVars__();return __setup__(props, ctx) }
  : __injectCSSVars__
`;
}

function createCache(size = 500) {
  {
    return /* @__PURE__ */ new Map();
  }
}

function isImportUsed(local, sfc) {
  return new RegExp(
    // #4274 escape $ since it's a special char in regex
    // (and is the only regex special char that is valid in identifiers)
    `[^\\w$_]${local.replace(/\$/g, "\\$")}[^\\w$_]`
  ).test(resolveTemplateUsageCheckString(sfc));
}
const templateUsageCheckCache = createCache();
function resolveTemplateUsageCheckString(sfc) {
  const { content, ast } = sfc.template;
  const cached = templateUsageCheckCache.get(content);
  if (cached) {
    return cached;
  }
  let code = "";
  transform$1(createRoot([ast]), {
    nodeTransforms: [
      (node) => {
        if (node.type === 1) {
          if (!parserOptions.isNativeTag(node.tag) && !parserOptions.isBuiltInComponent(node.tag)) {
            code += `,${camelize(node.tag)},${capitalize$1(camelize(node.tag))}`;
          }
          for (let i = 0; i < node.props.length; i++) {
            const prop = node.props[i];
            if (prop.type === 7) {
              if (!isBuiltInDirective(prop.name)) {
                code += `,v${capitalize$1(camelize(prop.name))}`;
              }
              if (prop.exp) {
                code += `,${processExp(
                  prop.exp.content,
                  prop.name
                )}`;
              }
            }
          }
        } else if (node.type === 5) {
          code += `,${processExp(
            node.content.content
          )}`;
        }
      }
    ]
  });
  code += ";";
  templateUsageCheckCache.set(content, code);
  return code;
}
const forAliasRE = /([\s\S]*?)\s+(?:in|of)\s+([\s\S]*)/;
function processExp(exp, dir) {
  if (/ as\s+\w|<.*>|:/.test(exp)) {
    if (dir === "slot") {
      exp = `(${exp})=>{}`;
    } else if (dir === "on") {
      exp = `()=>{return ${exp}}`;
    } else if (dir === "for") {
      const inMatch = exp.match(forAliasRE);
      if (inMatch) {
        let [, LHS, RHS] = inMatch;
        LHS = LHS.trim().replace(/^\(|\)$/g, "");
        return processExp(`(${LHS})=>{}`) + processExp(RHS);
      }
    }
    let ret = "";
    const ast = parseExpression_1(exp, { plugins: ["typescript"] });
    walkIdentifiers(ast, (node) => {
      ret += `,` + node.name;
    });
    return ret;
  }
  return stripStrings(exp);
}
function stripStrings(exp) {
  return exp.replace(/'[^']*'|"[^"]*"/g, "").replace(/`[^`]+`/g, stripTemplateString);
}
function stripTemplateString(str) {
  const interpMatch = str.match(/\${[^}]+}/g);
  if (interpMatch) {
    return interpMatch.map((m) => m.slice(2, -1)).join(",");
  }
  return "";
}

var __defProp$a = Object.defineProperty;
var __getOwnPropSymbols$a = Object.getOwnPropertySymbols;
var __hasOwnProp$a = Object.prototype.hasOwnProperty;
var __propIsEnum$a = Object.prototype.propertyIsEnumerable;
var __defNormalProp$a = (obj, key, value) => key in obj ? __defProp$a(obj, key, { enumerable: true, configurable: true, writable: true, value }) : obj[key] = value;
var __spreadValues$a = (a, b) => {
  for (var prop in b || (b = {}))
    if (__hasOwnProp$a.call(b, prop))
      __defNormalProp$a(a, prop, b[prop]);
  if (__getOwnPropSymbols$a)
    for (var prop of __getOwnPropSymbols$a(b)) {
      if (__propIsEnum$a.call(b, prop))
        __defNormalProp$a(a, prop, b[prop]);
    }
  return a;
};
const DEFAULT_FILENAME = "anonymous.vue";
const parseCache = createCache();
function parse$7(source, {
  sourceMap = true,
  filename = DEFAULT_FILENAME,
  sourceRoot = "",
  pad = false,
  ignoreEmpty = true,
  compiler = CompilerDOM
} = {}) {
  const sourceKey = source + sourceMap + filename + sourceRoot + pad + compiler.parse;
  const cache = parseCache.get(sourceKey);
  if (cache) {
    return cache;
  }
  const descriptor = {
    filename,
    source,
    template: null,
    script: null,
    scriptSetup: null,
    styles: [],
    customBlocks: [],
    cssVars: [],
    slotted: false,
    shouldForceReload: (prevImports) => hmrShouldReload(prevImports, descriptor)
  };
  const errors = [];
  const ast = compiler.parse(source, {
    // there are no components at SFC parsing level
    isNativeTag: () => true,
    // preserve all whitespaces
    isPreTag: () => true,
    getTextMode: ({ tag, props }, parent) => {
      if (!parent && tag !== "template" || // <template lang="xxx"> should also be treated as raw text
      tag === "template" && props.some(
        (p) => p.type === 6 && p.name === "lang" && p.value && p.value.content && p.value.content !== "html"
      )) {
        return 2;
      } else {
        return 0;
      }
    },
    onError: (e) => {
      errors.push(e);
    }
  });
  ast.children.forEach((node) => {
    if (node.type !== 1) {
      return;
    }
    if (ignoreEmpty && node.tag !== "template" && isEmpty(node) && !hasSrc(node)) {
      return;
    }
    switch (node.tag) {
      case "template":
        if (!descriptor.template) {
          const templateBlock = descriptor.template = createBlock(
            node,
            source,
            false
          );
          templateBlock.ast = node;
          if (templateBlock.attrs.functional) {
            const err = new SyntaxError(
              `<template functional> is no longer supported in Vue 3, since functional components no longer have significant performance difference from stateful ones. Just use a normal <template> instead.`
            );
            err.loc = node.props.find((p) => p.name === "functional").loc;
            errors.push(err);
          }
        } else {
          errors.push(createDuplicateBlockError(node));
        }
        break;
      case "script":
        const scriptBlock = createBlock(node, source, pad);
        const isSetup = !!scriptBlock.attrs.setup;
        if (isSetup && !descriptor.scriptSetup) {
          descriptor.scriptSetup = scriptBlock;
          break;
        }
        if (!isSetup && !descriptor.script) {
          descriptor.script = scriptBlock;
          break;
        }
        errors.push(createDuplicateBlockError(node, isSetup));
        break;
      case "style":
        const styleBlock = createBlock(node, source, pad);
        if (styleBlock.attrs.vars) {
          errors.push(
            new SyntaxError(
              `<style vars> has been replaced by a new proposal: https://github.com/vuejs/rfcs/pull/231`
            )
          );
        }
        descriptor.styles.push(styleBlock);
        break;
      default:
        descriptor.customBlocks.push(createBlock(node, source, pad));
        break;
    }
  });
  if (!descriptor.template && !descriptor.script && !descriptor.scriptSetup) {
    errors.push(
      new SyntaxError(
        `At least one <template> or <script> is required in a single file component.`
      )
    );
  }
  if (descriptor.scriptSetup) {
    if (descriptor.scriptSetup.src) {
      errors.push(
        new SyntaxError(
          `<script setup> cannot use the "src" attribute because its syntax will be ambiguous outside of the component.`
        )
      );
      descriptor.scriptSetup = null;
    }
    if (descriptor.script && descriptor.script.src) {
      errors.push(
        new SyntaxError(
          `<script> cannot use the "src" attribute when <script setup> is also present because they must be processed together.`
        )
      );
      descriptor.script = null;
    }
  }
  if (sourceMap) {
    const genMap = (block) => {
      if (block && !block.src) {
        block.map = generateSourceMap(
          filename,
          source,
          block.content,
          sourceRoot,
          !pad || block.type === "template" ? block.loc.start.line - 1 : 0
        );
      }
    };
    genMap(descriptor.template);
    genMap(descriptor.script);
    descriptor.styles.forEach(genMap);
    descriptor.customBlocks.forEach(genMap);
  }
  descriptor.cssVars = parseCssVars(descriptor);
  const slottedRE = /(?:::v-|:)slotted\(/;
  descriptor.slotted = descriptor.styles.some(
    (s) => s.scoped && slottedRE.test(s.content)
  );
  const result = {
    descriptor,
    errors
  };
  parseCache.set(sourceKey, result);
  return result;
}
function createDuplicateBlockError(node, isScriptSetup = false) {
  const err = new SyntaxError(
    `Single file component can contain only one <${node.tag}${isScriptSetup ? ` setup` : ``}> element`
  );
  err.loc = node.loc;
  return err;
}
function createBlock(node, source, pad) {
  const type = node.tag;
  let { start, end } = node.loc;
  let content = "";
  if (node.children.length) {
    start = node.children[0].loc.start;
    end = node.children[node.children.length - 1].loc.end;
    content = source.slice(start.offset, end.offset);
  } else {
    const offset = node.loc.source.indexOf(`</`);
    if (offset > -1) {
      start = {
        line: start.line,
        column: start.column + offset,
        offset: start.offset + offset
      };
    }
    end = __spreadValues$a({}, start);
  }
  const loc = {
    source: content,
    start,
    end
  };
  const attrs = {};
  const block = {
    type,
    content,
    loc,
    attrs
  };
  if (pad) {
    block.content = padContent(source, block, pad) + block.content;
  }
  node.props.forEach((p) => {
    if (p.type === 6) {
      attrs[p.name] = p.value ? p.value.content || true : true;
      if (p.name === "lang") {
        block.lang = p.value && p.value.content;
      } else if (p.name === "src") {
        block.src = p.value && p.value.content;
      } else if (type === "style") {
        if (p.name === "scoped") {
          block.scoped = true;
        } else if (p.name === "module") {
          block.module = attrs[p.name];
        }
      } else if (type === "script" && p.name === "setup") {
        block.setup = attrs.setup;
      }
    }
  });
  return block;
}
const splitRE = /\r?\n/g;
const emptyRE = /^(?:\/\/)?\s*$/;
const replaceRE = /./g;
function generateSourceMap(filename, source, generated, sourceRoot, lineOffset) {
  const map = new SourceMapGenerator$6({
    file: filename.replace(/\\/g, "/"),
    sourceRoot: sourceRoot.replace(/\\/g, "/")
  });
  map.setSourceContent(filename, source);
  generated.split(splitRE).forEach((line, index) => {
    if (!emptyRE.test(line)) {
      const originalLine = index + 1 + lineOffset;
      const generatedLine = index + 1;
      for (let i = 0; i < line.length; i++) {
        if (!/\s/.test(line[i])) {
          map.addMapping({
            source: filename,
            original: {
              line: originalLine,
              column: i
            },
            generated: {
              line: generatedLine,
              column: i
            }
          });
        }
      }
    }
  });
  return JSON.parse(map.toString());
}
function padContent(content, block, pad) {
  content = content.slice(0, block.loc.start.offset);
  if (pad === "space") {
    return content.replace(replaceRE, " ");
  } else {
    const offset = content.split(splitRE).length;
    const padChar = block.type === "script" && !block.lang ? "//\n" : "\n";
    return Array(offset).join(padChar);
  }
}
function hasSrc(node) {
  return node.props.some((p) => {
    if (p.type !== 6) {
      return false;
    }
    return p.name === "src";
  });
}
function isEmpty(node) {
  for (let i = 0; i < node.children.length; i++) {
    const child = node.children[i];
    if (child.type !== 2 || child.content.trim() !== "") {
      return false;
    }
  }
  return true;
}
function hmrShouldReload(prevImports, next) {
  if (!next.scriptSetup || next.scriptSetup.lang !== "ts" && next.scriptSetup.lang !== "tsx") {
    return false;
  }
  for (const key in prevImports) {
    if (!prevImports[key].isUsedInTemplate && isImportUsed(key, next)) {
      return true;
    }
  }
  return false;
}

var global$1 = (typeof global !== "undefined" ? global :
  typeof self !== "undefined" ? self :
  typeof window !== "undefined" ? window : {});

/*! https://mths.be/punycode v1.4.1 by @mathias */


/** Highest positive signed 32-bit float value */
var maxInt = 2147483647; // aka. 0x7FFFFFFF or 2^31-1

/** Bootstring parameters */
var base = 36;
var tMin = 1;
var tMax = 26;
var skew = 38;
var damp = 700;
var initialBias = 72;
var initialN = 128; // 0x80
var delimiter = '-'; // '\x2D'
var regexNonASCII = /[^\x20-\x7E]/; // unprintable ASCII chars + non-ASCII chars
var regexSeparators = /[\x2E\u3002\uFF0E\uFF61]/g; // RFC 3490 separators

/** Error messages */
var errors = {
  'overflow': 'Overflow: input needs wider integers to process',
  'not-basic': 'Illegal input >= 0x80 (not a basic code point)',
  'invalid-input': 'Invalid input'
};

/** Convenience shortcuts */
var baseMinusTMin = base - tMin;
var floor = Math.floor;
var stringFromCharCode = String.fromCharCode;

/*--------------------------------------------------------------------------*/

/**
 * A generic error utility function.
 * @private
 * @param {String} type The error type.
 * @returns {Error} Throws a `RangeError` with the applicable error message.
 */
function error(type) {
  throw new RangeError(errors[type]);
}

/**
 * A generic `Array#map` utility function.
 * @private
 * @param {Array} array The array to iterate over.
 * @param {Function} callback The function that gets called for every array
 * item.
 * @returns {Array} A new array of values returned by the callback function.
 */
function map$1(array, fn) {
  var length = array.length;
  var result = [];
  while (length--) {
    result[length] = fn(array[length]);
  }
  return result;
}

/**
 * A simple `Array#map`-like wrapper to work with domain name strings or email
 * addresses.
 * @private
 * @param {String} domain The domain name or email address.
 * @param {Function} callback The function that gets called for every
 * character.
 * @returns {Array} A new string of characters returned by the callback
 * function.
 */
function mapDomain(string, fn) {
  var parts = string.split('@');
  var result = '';
  if (parts.length > 1) {
    // In email addresses, only the domain name should be punycoded. Leave
    // the local part (i.e. everything up to `@`) intact.
    result = parts[0] + '@';
    string = parts[1];
  }
  // Avoid `split(regex)` for IE8 compatibility. See #17.
  string = string.replace(regexSeparators, '\x2E');
  var labels = string.split('.');
  var encoded = map$1(labels, fn).join('.');
  return result + encoded;
}

/**
 * Creates an array containing the numeric code points of each Unicode
 * character in the string. While JavaScript uses UCS-2 internally,
 * this function will convert a pair of surrogate halves (each of which
 * UCS-2 exposes as separate characters) into a single code point,
 * matching UTF-16.
 * @see `punycode.ucs2.encode`
 * @see <https://mathiasbynens.be/notes/javascript-encoding>
 * @memberOf punycode.ucs2
 * @name decode
 * @param {String} string The Unicode input string (UCS-2).
 * @returns {Array} The new array of code points.
 */
function ucs2decode(string) {
  var output = [],
    counter = 0,
    length = string.length,
    value,
    extra;
  while (counter < length) {
    value = string.charCodeAt(counter++);
    if (value >= 0xD800 && value <= 0xDBFF && counter < length) {
      // high surrogate, and there is a next character
      extra = string.charCodeAt(counter++);
      if ((extra & 0xFC00) == 0xDC00) { // low surrogate
        output.push(((value & 0x3FF) << 10) + (extra & 0x3FF) + 0x10000);
      } else {
        // unmatched surrogate; only append this code unit, in case the next
        // code unit is the high surrogate of a surrogate pair
        output.push(value);
        counter--;
      }
    } else {
      output.push(value);
    }
  }
  return output;
}

/**
 * Converts a digit/integer into a basic code point.
 * @see `basicToDigit()`
 * @private
 * @param {Number} digit The numeric value of a basic code point.
 * @returns {Number} The basic code point whose value (when used for
 * representing integers) is `digit`, which needs to be in the range
 * `0` to `base - 1`. If `flag` is non-zero, the uppercase form is
 * used; else, the lowercase form is used. The behavior is undefined
 * if `flag` is non-zero and `digit` has no uppercase form.
 */
function digitToBasic(digit, flag) {
  //  0..25 map to ASCII a..z or A..Z
  // 26..35 map to ASCII 0..9
  return digit + 22 + 75 * (digit < 26) - ((flag != 0) << 5);
}

/**
 * Bias adaptation function as per section 3.4 of RFC 3492.
 * https://tools.ietf.org/html/rfc3492#section-3.4
 * @private
 */
function adapt(delta, numPoints, firstTime) {
  var k = 0;
  delta = firstTime ? floor(delta / damp) : delta >> 1;
  delta += floor(delta / numPoints);
  for ( /* no initialization */ ; delta > baseMinusTMin * tMax >> 1; k += base) {
    delta = floor(delta / baseMinusTMin);
  }
  return floor(k + (baseMinusTMin + 1) * delta / (delta + skew));
}

/**
 * Converts a string of Unicode symbols (e.g. a domain name label) to a
 * Punycode string of ASCII-only symbols.
 * @memberOf punycode
 * @param {String} input The string of Unicode symbols.
 * @returns {String} The resulting Punycode string of ASCII-only symbols.
 */
function encode$1(input) {
  var n,
    delta,
    handledCPCount,
    basicLength,
    bias,
    j,
    m,
    q,
    k,
    t,
    currentValue,
    output = [],
    /** `inputLength` will hold the number of code points in `input`. */
    inputLength,
    /** Cached calculation results */
    handledCPCountPlusOne,
    baseMinusT,
    qMinusT;

  // Convert the input in UCS-2 to Unicode
  input = ucs2decode(input);

  // Cache the length
  inputLength = input.length;

  // Initialize the state
  n = initialN;
  delta = 0;
  bias = initialBias;

  // Handle the basic code points
  for (j = 0; j < inputLength; ++j) {
    currentValue = input[j];
    if (currentValue < 0x80) {
      output.push(stringFromCharCode(currentValue));
    }
  }

  handledCPCount = basicLength = output.length;

  // `handledCPCount` is the number of code points that have been handled;
  // `basicLength` is the number of basic code points.

  // Finish the basic string - if it is not empty - with a delimiter
  if (basicLength) {
    output.push(delimiter);
  }

  // Main encoding loop:
  while (handledCPCount < inputLength) {

    // All non-basic code points < n have been handled already. Find the next
    // larger one:
    for (m = maxInt, j = 0; j < inputLength; ++j) {
      currentValue = input[j];
      if (currentValue >= n && currentValue < m) {
        m = currentValue;
      }
    }

    // Increase `delta` enough to advance the decoder's <n,i> state to <m,0>,
    // but guard against overflow
    handledCPCountPlusOne = handledCPCount + 1;
    if (m - n > floor((maxInt - delta) / handledCPCountPlusOne)) {
      error('overflow');
    }

    delta += (m - n) * handledCPCountPlusOne;
    n = m;

    for (j = 0; j < inputLength; ++j) {
      currentValue = input[j];

      if (currentValue < n && ++delta > maxInt) {
        error('overflow');
      }

      if (currentValue == n) {
        // Represent delta as a generalized variable-length integer
        for (q = delta, k = base; /* no condition */ ; k += base) {
          t = k <= bias ? tMin : (k >= bias + tMax ? tMax : k - bias);
          if (q < t) {
            break;
          }
          qMinusT = q - t;
          baseMinusT = base - t;
          output.push(
            stringFromCharCode(digitToBasic(t + qMinusT % baseMinusT, 0))
          );
          q = floor(qMinusT / baseMinusT);
        }

        output.push(stringFromCharCode(digitToBasic(q, 0)));
        bias = adapt(delta, handledCPCountPlusOne, handledCPCount == basicLength);
        delta = 0;
        ++handledCPCount;
      }
    }

    ++delta;
    ++n;

  }
  return output.join('');
}

/**
 * Converts a Unicode string representing a domain name or an email address to
 * Punycode. Only the non-ASCII parts of the domain name will be converted,
 * i.e. it doesn't matter if you call it with a domain that's already in
 * ASCII.
 * @memberOf punycode
 * @param {String} input The domain name or email address to convert, as a
 * Unicode string.
 * @returns {String} The Punycode representation of the given domain name or
 * email address.
 */
function toASCII(input) {
  return mapDomain(input, function(string) {
    return regexNonASCII.test(string) ?
      'xn--' + encode$1(string) :
      string;
  });
}

var lookup = [];
var revLookup = [];
var Arr = typeof Uint8Array !== 'undefined' ? Uint8Array : Array;
var inited = false;
function init () {
  inited = true;
  var code = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/';
  for (var i = 0, len = code.length; i < len; ++i) {
    lookup[i] = code[i];
    revLookup[code.charCodeAt(i)] = i;
  }

  revLookup['-'.charCodeAt(0)] = 62;
  revLookup['_'.charCodeAt(0)] = 63;
}

function toByteArray (b64) {
  if (!inited) {
    init();
  }
  var i, j, l, tmp, placeHolders, arr;
  var len = b64.length;

  if (len % 4 > 0) {
    throw new Error('Invalid string. Length must be a multiple of 4')
  }

  // the number of equal signs (place holders)
  // if there are two placeholders, than the two characters before it
  // represent one byte
  // if there is only one, then the three characters before it represent 2 bytes
  // this is just a cheap hack to not do indexOf twice
  placeHolders = b64[len - 2] === '=' ? 2 : b64[len - 1] === '=' ? 1 : 0;

  // base64 is 4/3 + up to two characters of the original data
  arr = new Arr(len * 3 / 4 - placeHolders);

  // if there are placeholders, only get up to the last complete 4 chars
  l = placeHolders > 0 ? len - 4 : len;

  var L = 0;

  for (i = 0, j = 0; i < l; i += 4, j += 3) {
    tmp = (revLookup[b64.charCodeAt(i)] << 18) | (revLookup[b64.charCodeAt(i + 1)] << 12) | (revLookup[b64.charCodeAt(i + 2)] << 6) | revLookup[b64.charCodeAt(i + 3)];
    arr[L++] = (tmp >> 16) & 0xFF;
    arr[L++] = (tmp >> 8) & 0xFF;
    arr[L++] = tmp & 0xFF;
  }

  if (placeHolders === 2) {
    tmp = (revLookup[b64.charCodeAt(i)] << 2) | (revLookup[b64.charCodeAt(i + 1)] >> 4);
    arr[L++] = tmp & 0xFF;
  } else if (placeHolders === 1) {
    tmp = (revLookup[b64.charCodeAt(i)] << 10) | (revLookup[b64.charCodeAt(i + 1)] << 4) | (revLookup[b64.charCodeAt(i + 2)] >> 2);
    arr[L++] = (tmp >> 8) & 0xFF;
    arr[L++] = tmp & 0xFF;
  }

  return arr
}

function tripletToBase64 (num) {
  return lookup[num >> 18 & 0x3F] + lookup[num >> 12 & 0x3F] + lookup[num >> 6 & 0x3F] + lookup[num & 0x3F]
}

function encodeChunk (uint8, start, end) {
  var tmp;
  var output = [];
  for (var i = start; i < end; i += 3) {
    tmp = (uint8[i] << 16) + (uint8[i + 1] << 8) + (uint8[i + 2]);
    output.push(tripletToBase64(tmp));
  }
  return output.join('')
}

function fromByteArray (uint8) {
  if (!inited) {
    init();
  }
  var tmp;
  var len = uint8.length;
  var extraBytes = len % 3; // if we have 1 byte left, pad 2 bytes
  var output = '';
  var parts = [];
  var maxChunkLength = 16383; // must be multiple of 3

  // go through the array every three bytes, we'll deal with trailing stuff later
  for (var i = 0, len2 = len - extraBytes; i < len2; i += maxChunkLength) {
    parts.push(encodeChunk(uint8, i, (i + maxChunkLength) > len2 ? len2 : (i + maxChunkLength)));
  }

  // pad the end with zeros, but make sure to not forget the extra bytes
  if (extraBytes === 1) {
    tmp = uint8[len - 1];
    output += lookup[tmp >> 2];
    output += lookup[(tmp << 4) & 0x3F];
    output += '==';
  } else if (extraBytes === 2) {
    tmp = (uint8[len - 2] << 8) + (uint8[len - 1]);
    output += lookup[tmp >> 10];
    output += lookup[(tmp >> 4) & 0x3F];
    output += lookup[(tmp << 2) & 0x3F];
    output += '=';
  }

  parts.push(output);

  return parts.join('')
}

function read (buffer, offset, isLE, mLen, nBytes) {
  var e, m;
  var eLen = nBytes * 8 - mLen - 1;
  var eMax = (1 << eLen) - 1;
  var eBias = eMax >> 1;
  var nBits = -7;
  var i = isLE ? (nBytes - 1) : 0;
  var d = isLE ? -1 : 1;
  var s = buffer[offset + i];

  i += d;

  e = s & ((1 << (-nBits)) - 1);
  s >>= (-nBits);
  nBits += eLen;
  for (; nBits > 0; e = e * 256 + buffer[offset + i], i += d, nBits -= 8) {}

  m = e & ((1 << (-nBits)) - 1);
  e >>= (-nBits);
  nBits += mLen;
  for (; nBits > 0; m = m * 256 + buffer[offset + i], i += d, nBits -= 8) {}

  if (e === 0) {
    e = 1 - eBias;
  } else if (e === eMax) {
    return m ? NaN : ((s ? -1 : 1) * Infinity)
  } else {
    m = m + Math.pow(2, mLen);
    e = e - eBias;
  }
  return (s ? -1 : 1) * m * Math.pow(2, e - mLen)
}

function write (buffer, value, offset, isLE, mLen, nBytes) {
  var e, m, c;
  var eLen = nBytes * 8 - mLen - 1;
  var eMax = (1 << eLen) - 1;
  var eBias = eMax >> 1;
  var rt = (mLen === 23 ? Math.pow(2, -24) - Math.pow(2, -77) : 0);
  var i = isLE ? 0 : (nBytes - 1);
  var d = isLE ? 1 : -1;
  var s = value < 0 || (value === 0 && 1 / value < 0) ? 1 : 0;

  value = Math.abs(value);

  if (isNaN(value) || value === Infinity) {
    m = isNaN(value) ? 1 : 0;
    e = eMax;
  } else {
    e = Math.floor(Math.log(value) / Math.LN2);
    if (value * (c = Math.pow(2, -e)) < 1) {
      e--;
      c *= 2;
    }
    if (e + eBias >= 1) {
      value += rt / c;
    } else {
      value += rt * Math.pow(2, 1 - eBias);
    }
    if (value * c >= 2) {
      e++;
      c /= 2;
    }

    if (e + eBias >= eMax) {
      m = 0;
      e = eMax;
    } else if (e + eBias >= 1) {
      m = (value * c - 1) * Math.pow(2, mLen);
      e = e + eBias;
    } else {
      m = value * Math.pow(2, eBias - 1) * Math.pow(2, mLen);
      e = 0;
    }
  }

  for (; mLen >= 8; buffer[offset + i] = m & 0xff, i += d, m /= 256, mLen -= 8) {}

  e = (e << mLen) | m;
  eLen += mLen;
  for (; eLen > 0; buffer[offset + i] = e & 0xff, i += d, e /= 256, eLen -= 8) {}

  buffer[offset + i - d] |= s * 128;
}

var toString$1 = {}.toString;

var isArray$2 = Array.isArray || function (arr) {
  return toString$1.call(arr) == '[object Array]';
};

/*!
 * The buffer module from node.js, for the browser.
 *
 * @author   Feross Aboukhadijeh <feross@feross.org> <http://feross.org>
 * @license  MIT
 */

var INSPECT_MAX_BYTES = 50;

/**
 * If `Buffer.TYPED_ARRAY_SUPPORT`:
 *   === true    Use Uint8Array implementation (fastest)
 *   === false   Use Object implementation (most compatible, even IE6)
 *
 * Browsers that support typed arrays are IE 10+, Firefox 4+, Chrome 7+, Safari 5.1+,
 * Opera 11.6+, iOS 4.2+.
 *
 * Due to various browser bugs, sometimes the Object implementation will be used even
 * when the browser supports typed arrays.
 *
 * Note:
 *
 *   - Firefox 4-29 lacks support for adding new properties to `Uint8Array` instances,
 *     See: https://bugzilla.mozilla.org/show_bug.cgi?id=695438.
 *
 *   - Chrome 9-10 is missing the `TypedArray.prototype.subarray` function.
 *
 *   - IE10 has a broken `TypedArray.prototype.subarray` function which returns arrays of
 *     incorrect length in some situations.

 * We detect these buggy browsers and set `Buffer.TYPED_ARRAY_SUPPORT` to `false` so they
 * get the Object implementation, which is slower but behaves correctly.
 */
Buffer$1.TYPED_ARRAY_SUPPORT = global$1.TYPED_ARRAY_SUPPORT !== undefined
  ? global$1.TYPED_ARRAY_SUPPORT
  : true;

/*
 * Export kMaxLength after typed array support is determined.
 */
kMaxLength();

function kMaxLength () {
  return Buffer$1.TYPED_ARRAY_SUPPORT
    ? 0x7fffffff
    : 0x3fffffff
}

function createBuffer (that, length) {
  if (kMaxLength() < length) {
    throw new RangeError('Invalid typed array length')
  }
  if (Buffer$1.TYPED_ARRAY_SUPPORT) {
    // Return an augmented `Uint8Array` instance, for best performance
    that = new Uint8Array(length);
    that.__proto__ = Buffer$1.prototype;
  } else {
    // Fallback: Return an object instance of the Buffer class
    if (that === null) {
      that = new Buffer$1(length);
    }
    that.length = length;
  }

  return that
}

/**
 * The Buffer constructor returns instances of `Uint8Array` that have their
 * prototype changed to `Buffer.prototype`. Furthermore, `Buffer` is a subclass of
 * `Uint8Array`, so the returned instances will have all the node `Buffer` methods
 * and the `Uint8Array` methods. Square bracket notation works as expected -- it
 * returns a single octet.
 *
 * The `Uint8Array` prototype remains unmodified.
 */

function Buffer$1 (arg, encodingOrOffset, length) {
  if (!Buffer$1.TYPED_ARRAY_SUPPORT && !(this instanceof Buffer$1)) {
    return new Buffer$1(arg, encodingOrOffset, length)
  }

  // Common case.
  if (typeof arg === 'number') {
    if (typeof encodingOrOffset === 'string') {
      throw new Error(
        'If encoding is specified then the first argument must be a string'
      )
    }
    return allocUnsafe(this, arg)
  }
  return from(this, arg, encodingOrOffset, length)
}

Buffer$1.poolSize = 8192; // not used by this implementation

// TODO: Legacy, not needed anymore. Remove in next major version.
Buffer$1._augment = function (arr) {
  arr.__proto__ = Buffer$1.prototype;
  return arr
};

function from (that, value, encodingOrOffset, length) {
  if (typeof value === 'number') {
    throw new TypeError('"value" argument must not be a number')
  }

  if (typeof ArrayBuffer !== 'undefined' && value instanceof ArrayBuffer) {
    return fromArrayBuffer(that, value, encodingOrOffset, length)
  }

  if (typeof value === 'string') {
    return fromString(that, value, encodingOrOffset)
  }

  return fromObject(that, value)
}

/**
 * Functionally equivalent to Buffer(arg, encoding) but throws a TypeError
 * if value is a number.
 * Buffer.from(str[, encoding])
 * Buffer.from(array)
 * Buffer.from(buffer)
 * Buffer.from(arrayBuffer[, byteOffset[, length]])
 **/
Buffer$1.from = function (value, encodingOrOffset, length) {
  return from(null, value, encodingOrOffset, length)
};

if (Buffer$1.TYPED_ARRAY_SUPPORT) {
  Buffer$1.prototype.__proto__ = Uint8Array.prototype;
  Buffer$1.__proto__ = Uint8Array;
  if (typeof Symbol !== 'undefined' && Symbol.species &&
      Buffer$1[Symbol.species] === Buffer$1) ;
}

function assertSize (size) {
  if (typeof size !== 'number') {
    throw new TypeError('"size" argument must be a number')
  } else if (size < 0) {
    throw new RangeError('"size" argument must not be negative')
  }
}

function alloc (that, size, fill, encoding) {
  assertSize(size);
  if (size <= 0) {
    return createBuffer(that, size)
  }
  if (fill !== undefined) {
    // Only pay attention to encoding if it's a string. This
    // prevents accidentally sending in a number that would
    // be interpretted as a start offset.
    return typeof encoding === 'string'
      ? createBuffer(that, size).fill(fill, encoding)
      : createBuffer(that, size).fill(fill)
  }
  return createBuffer(that, size)
}

/**
 * Creates a new filled Buffer instance.
 * alloc(size[, fill[, encoding]])
 **/
Buffer$1.alloc = function (size, fill, encoding) {
  return alloc(null, size, fill, encoding)
};

function allocUnsafe (that, size) {
  assertSize(size);
  that = createBuffer(that, size < 0 ? 0 : checked(size) | 0);
  if (!Buffer$1.TYPED_ARRAY_SUPPORT) {
    for (var i = 0; i < size; ++i) {
      that[i] = 0;
    }
  }
  return that
}

/**
 * Equivalent to Buffer(num), by default creates a non-zero-filled Buffer instance.
 * */
Buffer$1.allocUnsafe = function (size) {
  return allocUnsafe(null, size)
};
/**
 * Equivalent to SlowBuffer(num), by default creates a non-zero-filled Buffer instance.
 */
Buffer$1.allocUnsafeSlow = function (size) {
  return allocUnsafe(null, size)
};

function fromString (that, string, encoding) {
  if (typeof encoding !== 'string' || encoding === '') {
    encoding = 'utf8';
  }

  if (!Buffer$1.isEncoding(encoding)) {
    throw new TypeError('"encoding" must be a valid string encoding')
  }

  var length = byteLength(string, encoding) | 0;
  that = createBuffer(that, length);

  var actual = that.write(string, encoding);

  if (actual !== length) {
    // Writing a hex string, for example, that contains invalid characters will
    // cause everything after the first invalid character to be ignored. (e.g.
    // 'abxxcd' will be treated as 'ab')
    that = that.slice(0, actual);
  }

  return that
}

function fromArrayLike (that, array) {
  var length = array.length < 0 ? 0 : checked(array.length) | 0;
  that = createBuffer(that, length);
  for (var i = 0; i < length; i += 1) {
    that[i] = array[i] & 255;
  }
  return that
}

function fromArrayBuffer (that, array, byteOffset, length) {
  array.byteLength; // this throws if `array` is not a valid ArrayBuffer

  if (byteOffset < 0 || array.byteLength < byteOffset) {
    throw new RangeError('\'offset\' is out of bounds')
  }

  if (array.byteLength < byteOffset + (length || 0)) {
    throw new RangeError('\'length\' is out of bounds')
  }

  if (byteOffset === undefined && length === undefined) {
    array = new Uint8Array(array);
  } else if (length === undefined) {
    array = new Uint8Array(array, byteOffset);
  } else {
    array = new Uint8Array(array, byteOffset, length);
  }

  if (Buffer$1.TYPED_ARRAY_SUPPORT) {
    // Return an augmented `Uint8Array` instance, for best performance
    that = array;
    that.__proto__ = Buffer$1.prototype;
  } else {
    // Fallback: Return an object instance of the Buffer class
    that = fromArrayLike(that, array);
  }
  return that
}

function fromObject (that, obj) {
  if (internalIsBuffer(obj)) {
    var len = checked(obj.length) | 0;
    that = createBuffer(that, len);

    if (that.length === 0) {
      return that
    }

    obj.copy(that, 0, 0, len);
    return that
  }

  if (obj) {
    if ((typeof ArrayBuffer !== 'undefined' &&
        obj.buffer instanceof ArrayBuffer) || 'length' in obj) {
      if (typeof obj.length !== 'number' || isnan(obj.length)) {
        return createBuffer(that, 0)
      }
      return fromArrayLike(that, obj)
    }

    if (obj.type === 'Buffer' && isArray$2(obj.data)) {
      return fromArrayLike(that, obj.data)
    }
  }

  throw new TypeError('First argument must be a string, Buffer, ArrayBuffer, Array, or array-like object.')
}

function checked (length) {
  // Note: cannot use `length < kMaxLength()` here because that fails when
  // length is NaN (which is otherwise coerced to zero.)
  if (length >= kMaxLength()) {
    throw new RangeError('Attempt to allocate Buffer larger than maximum ' +
                         'size: 0x' + kMaxLength().toString(16) + ' bytes')
  }
  return length | 0
}
Buffer$1.isBuffer = isBuffer$1;
function internalIsBuffer (b) {
  return !!(b != null && b._isBuffer)
}

Buffer$1.compare = function compare (a, b) {
  if (!internalIsBuffer(a) || !internalIsBuffer(b)) {
    throw new TypeError('Arguments must be Buffers')
  }

  if (a === b) return 0

  var x = a.length;
  var y = b.length;

  for (var i = 0, len = Math.min(x, y); i < len; ++i) {
    if (a[i] !== b[i]) {
      x = a[i];
      y = b[i];
      break
    }
  }

  if (x < y) return -1
  if (y < x) return 1
  return 0
};

Buffer$1.isEncoding = function isEncoding (encoding) {
  switch (String(encoding).toLowerCase()) {
    case 'hex':
    case 'utf8':
    case 'utf-8':
    case 'ascii':
    case 'latin1':
    case 'binary':
    case 'base64':
    case 'ucs2':
    case 'ucs-2':
    case 'utf16le':
    case 'utf-16le':
      return true
    default:
      return false
  }
};

Buffer$1.concat = function concat (list, length) {
  if (!isArray$2(list)) {
    throw new TypeError('"list" argument must be an Array of Buffers')
  }

  if (list.length === 0) {
    return Buffer$1.alloc(0)
  }

  var i;
  if (length === undefined) {
    length = 0;
    for (i = 0; i < list.length; ++i) {
      length += list[i].length;
    }
  }

  var buffer = Buffer$1.allocUnsafe(length);
  var pos = 0;
  for (i = 0; i < list.length; ++i) {
    var buf = list[i];
    if (!internalIsBuffer(buf)) {
      throw new TypeError('"list" argument must be an Array of Buffers')
    }
    buf.copy(buffer, pos);
    pos += buf.length;
  }
  return buffer
};

function byteLength (string, encoding) {
  if (internalIsBuffer(string)) {
    return string.length
  }
  if (typeof ArrayBuffer !== 'undefined' && typeof ArrayBuffer.isView === 'function' &&
      (ArrayBuffer.isView(string) || string instanceof ArrayBuffer)) {
    return string.byteLength
  }
  if (typeof string !== 'string') {
    string = '' + string;
  }

  var len = string.length;
  if (len === 0) return 0

  // Use a for loop to avoid recursion
  var loweredCase = false;
  for (;;) {
    switch (encoding) {
      case 'ascii':
      case 'latin1':
      case 'binary':
        return len
      case 'utf8':
      case 'utf-8':
      case undefined:
        return utf8ToBytes(string).length
      case 'ucs2':
      case 'ucs-2':
      case 'utf16le':
      case 'utf-16le':
        return len * 2
      case 'hex':
        return len >>> 1
      case 'base64':
        return base64ToBytes(string).length
      default:
        if (loweredCase) return utf8ToBytes(string).length // assume utf8
        encoding = ('' + encoding).toLowerCase();
        loweredCase = true;
    }
  }
}
Buffer$1.byteLength = byteLength;

function slowToString (encoding, start, end) {
  var loweredCase = false;

  // No need to verify that "this.length <= MAX_UINT32" since it's a read-only
  // property of a typed array.

  // This behaves neither like String nor Uint8Array in that we set start/end
  // to their upper/lower bounds if the value passed is out of range.
  // undefined is handled specially as per ECMA-262 6th Edition,
  // Section 13.3.3.7 Runtime Semantics: KeyedBindingInitialization.
  if (start === undefined || start < 0) {
    start = 0;
  }
  // Return early if start > this.length. Done here to prevent potential uint32
  // coercion fail below.
  if (start > this.length) {
    return ''
  }

  if (end === undefined || end > this.length) {
    end = this.length;
  }

  if (end <= 0) {
    return ''
  }

  // Force coersion to uint32. This will also coerce falsey/NaN values to 0.
  end >>>= 0;
  start >>>= 0;

  if (end <= start) {
    return ''
  }

  if (!encoding) encoding = 'utf8';

  while (true) {
    switch (encoding) {
      case 'hex':
        return hexSlice(this, start, end)

      case 'utf8':
      case 'utf-8':
        return utf8Slice(this, start, end)

      case 'ascii':
        return asciiSlice(this, start, end)

      case 'latin1':
      case 'binary':
        return latin1Slice(this, start, end)

      case 'base64':
        return base64Slice(this, start, end)

      case 'ucs2':
      case 'ucs-2':
      case 'utf16le':
      case 'utf-16le':
        return utf16leSlice(this, start, end)

      default:
        if (loweredCase) throw new TypeError('Unknown encoding: ' + encoding)
        encoding = (encoding + '').toLowerCase();
        loweredCase = true;
    }
  }
}

// The property is used by `Buffer.isBuffer` and `is-buffer` (in Safari 5-7) to detect
// Buffer instances.
Buffer$1.prototype._isBuffer = true;

function swap$1 (b, n, m) {
  var i = b[n];
  b[n] = b[m];
  b[m] = i;
}

Buffer$1.prototype.swap16 = function swap16 () {
  var len = this.length;
  if (len % 2 !== 0) {
    throw new RangeError('Buffer size must be a multiple of 16-bits')
  }
  for (var i = 0; i < len; i += 2) {
    swap$1(this, i, i + 1);
  }
  return this
};

Buffer$1.prototype.swap32 = function swap32 () {
  var len = this.length;
  if (len % 4 !== 0) {
    throw new RangeError('Buffer size must be a multiple of 32-bits')
  }
  for (var i = 0; i < len; i += 4) {
    swap$1(this, i, i + 3);
    swap$1(this, i + 1, i + 2);
  }
  return this
};

Buffer$1.prototype.swap64 = function swap64 () {
  var len = this.length;
  if (len % 8 !== 0) {
    throw new RangeError('Buffer size must be a multiple of 64-bits')
  }
  for (var i = 0; i < len; i += 8) {
    swap$1(this, i, i + 7);
    swap$1(this, i + 1, i + 6);
    swap$1(this, i + 2, i + 5);
    swap$1(this, i + 3, i + 4);
  }
  return this
};

Buffer$1.prototype.toString = function toString () {
  var length = this.length | 0;
  if (length === 0) return ''
  if (arguments.length === 0) return utf8Slice(this, 0, length)
  return slowToString.apply(this, arguments)
};

Buffer$1.prototype.equals = function equals (b) {
  if (!internalIsBuffer(b)) throw new TypeError('Argument must be a Buffer')
  if (this === b) return true
  return Buffer$1.compare(this, b) === 0
};

Buffer$1.prototype.inspect = function inspect () {
  var str = '';
  var max = INSPECT_MAX_BYTES;
  if (this.length > 0) {
    str = this.toString('hex', 0, max).match(/.{2}/g).join(' ');
    if (this.length > max) str += ' ... ';
  }
  return '<Buffer ' + str + '>'
};

Buffer$1.prototype.compare = function compare (target, start, end, thisStart, thisEnd) {
  if (!internalIsBuffer(target)) {
    throw new TypeError('Argument must be a Buffer')
  }

  if (start === undefined) {
    start = 0;
  }
  if (end === undefined) {
    end = target ? target.length : 0;
  }
  if (thisStart === undefined) {
    thisStart = 0;
  }
  if (thisEnd === undefined) {
    thisEnd = this.length;
  }

  if (start < 0 || end > target.length || thisStart < 0 || thisEnd > this.length) {
    throw new RangeError('out of range index')
  }

  if (thisStart >= thisEnd && start >= end) {
    return 0
  }
  if (thisStart >= thisEnd) {
    return -1
  }
  if (start >= end) {
    return 1
  }

  start >>>= 0;
  end >>>= 0;
  thisStart >>>= 0;
  thisEnd >>>= 0;

  if (this === target) return 0

  var x = thisEnd - thisStart;
  var y = end - start;
  var len = Math.min(x, y);

  var thisCopy = this.slice(thisStart, thisEnd);
  var targetCopy = target.slice(start, end);

  for (var i = 0; i < len; ++i) {
    if (thisCopy[i] !== targetCopy[i]) {
      x = thisCopy[i];
      y = targetCopy[i];
      break
    }
  }

  if (x < y) return -1
  if (y < x) return 1
  return 0
};

// Finds either the first index of `val` in `buffer` at offset >= `byteOffset`,
// OR the last index of `val` in `buffer` at offset <= `byteOffset`.
//
// Arguments:
// - buffer - a Buffer to search
// - val - a string, Buffer, or number
// - byteOffset - an index into `buffer`; will be clamped to an int32
// - encoding - an optional encoding, relevant is val is a string
// - dir - true for indexOf, false for lastIndexOf
function bidirectionalIndexOf (buffer, val, byteOffset, encoding, dir) {
  // Empty buffer means no match
  if (buffer.length === 0) return -1

  // Normalize byteOffset
  if (typeof byteOffset === 'string') {
    encoding = byteOffset;
    byteOffset = 0;
  } else if (byteOffset > 0x7fffffff) {
    byteOffset = 0x7fffffff;
  } else if (byteOffset < -0x80000000) {
    byteOffset = -0x80000000;
  }
  byteOffset = +byteOffset;  // Coerce to Number.
  if (isNaN(byteOffset)) {
    // byteOffset: it it's undefined, null, NaN, "foo", etc, search whole buffer
    byteOffset = dir ? 0 : (buffer.length - 1);
  }

  // Normalize byteOffset: negative offsets start from the end of the buffer
  if (byteOffset < 0) byteOffset = buffer.length + byteOffset;
  if (byteOffset >= buffer.length) {
    if (dir) return -1
    else byteOffset = buffer.length - 1;
  } else if (byteOffset < 0) {
    if (dir) byteOffset = 0;
    else return -1
  }

  // Normalize val
  if (typeof val === 'string') {
    val = Buffer$1.from(val, encoding);
  }

  // Finally, search either indexOf (if dir is true) or lastIndexOf
  if (internalIsBuffer(val)) {
    // Special case: looking for empty string/buffer always fails
    if (val.length === 0) {
      return -1
    }
    return arrayIndexOf(buffer, val, byteOffset, encoding, dir)
  } else if (typeof val === 'number') {
    val = val & 0xFF; // Search for a byte value [0-255]
    if (Buffer$1.TYPED_ARRAY_SUPPORT &&
        typeof Uint8Array.prototype.indexOf === 'function') {
      if (dir) {
        return Uint8Array.prototype.indexOf.call(buffer, val, byteOffset)
      } else {
        return Uint8Array.prototype.lastIndexOf.call(buffer, val, byteOffset)
      }
    }
    return arrayIndexOf(buffer, [ val ], byteOffset, encoding, dir)
  }

  throw new TypeError('val must be string, number or Buffer')
}

function arrayIndexOf (arr, val, byteOffset, encoding, dir) {
  var indexSize = 1;
  var arrLength = arr.length;
  var valLength = val.length;

  if (encoding !== undefined) {
    encoding = String(encoding).toLowerCase();
    if (encoding === 'ucs2' || encoding === 'ucs-2' ||
        encoding === 'utf16le' || encoding === 'utf-16le') {
      if (arr.length < 2 || val.length < 2) {
        return -1
      }
      indexSize = 2;
      arrLength /= 2;
      valLength /= 2;
      byteOffset /= 2;
    }
  }

  function read (buf, i) {
    if (indexSize === 1) {
      return buf[i]
    } else {
      return buf.readUInt16BE(i * indexSize)
    }
  }

  var i;
  if (dir) {
    var foundIndex = -1;
    for (i = byteOffset; i < arrLength; i++) {
      if (read(arr, i) === read(val, foundIndex === -1 ? 0 : i - foundIndex)) {
        if (foundIndex === -1) foundIndex = i;
        if (i - foundIndex + 1 === valLength) return foundIndex * indexSize
      } else {
        if (foundIndex !== -1) i -= i - foundIndex;
        foundIndex = -1;
      }
    }
  } else {
    if (byteOffset + valLength > arrLength) byteOffset = arrLength - valLength;
    for (i = byteOffset; i >= 0; i--) {
      var found = true;
      for (var j = 0; j < valLength; j++) {
        if (read(arr, i + j) !== read(val, j)) {
          found = false;
          break
        }
      }
      if (found) return i
    }
  }

  return -1
}

Buffer$1.prototype.includes = function includes (val, byteOffset, encoding) {
  return this.indexOf(val, byteOffset, encoding) !== -1
};

Buffer$1.prototype.indexOf = function indexOf (val, byteOffset, encoding) {
  return bidirectionalIndexOf(this, val, byteOffset, encoding, true)
};

Buffer$1.prototype.lastIndexOf = function lastIndexOf (val, byteOffset, encoding) {
  return bidirectionalIndexOf(this, val, byteOffset, encoding, false)
};

function hexWrite (buf, string, offset, length) {
  offset = Number(offset) || 0;
  var remaining = buf.length - offset;
  if (!length) {
    length = remaining;
  } else {
    length = Number(length);
    if (length > remaining) {
      length = remaining;
    }
  }

  // must be an even number of digits
  var strLen = string.length;
  if (strLen % 2 !== 0) throw new TypeError('Invalid hex string')

  if (length > strLen / 2) {
    length = strLen / 2;
  }
  for (var i = 0; i < length; ++i) {
    var parsed = parseInt(string.substr(i * 2, 2), 16);
    if (isNaN(parsed)) return i
    buf[offset + i] = parsed;
  }
  return i
}

function utf8Write (buf, string, offset, length) {
  return blitBuffer(utf8ToBytes(string, buf.length - offset), buf, offset, length)
}

function asciiWrite (buf, string, offset, length) {
  return blitBuffer(asciiToBytes(string), buf, offset, length)
}

function latin1Write (buf, string, offset, length) {
  return asciiWrite(buf, string, offset, length)
}

function base64Write (buf, string, offset, length) {
  return blitBuffer(base64ToBytes(string), buf, offset, length)
}

function ucs2Write (buf, string, offset, length) {
  return blitBuffer(utf16leToBytes(string, buf.length - offset), buf, offset, length)
}

Buffer$1.prototype.write = function write (string, offset, length, encoding) {
  // Buffer#write(string)
  if (offset === undefined) {
    encoding = 'utf8';
    length = this.length;
    offset = 0;
  // Buffer#write(string, encoding)
  } else if (length === undefined && typeof offset === 'string') {
    encoding = offset;
    length = this.length;
    offset = 0;
  // Buffer#write(string, offset[, length][, encoding])
  } else if (isFinite(offset)) {
    offset = offset | 0;
    if (isFinite(length)) {
      length = length | 0;
      if (encoding === undefined) encoding = 'utf8';
    } else {
      encoding = length;
      length = undefined;
    }
  // legacy write(string, encoding, offset, length) - remove in v0.13
  } else {
    throw new Error(
      'Buffer.write(string, encoding, offset[, length]) is no longer supported'
    )
  }

  var remaining = this.length - offset;
  if (length === undefined || length > remaining) length = remaining;

  if ((string.length > 0 && (length < 0 || offset < 0)) || offset > this.length) {
    throw new RangeError('Attempt to write outside buffer bounds')
  }

  if (!encoding) encoding = 'utf8';

  var loweredCase = false;
  for (;;) {
    switch (encoding) {
      case 'hex':
        return hexWrite(this, string, offset, length)

      case 'utf8':
      case 'utf-8':
        return utf8Write(this, string, offset, length)

      case 'ascii':
        return asciiWrite(this, string, offset, length)

      case 'latin1':
      case 'binary':
        return latin1Write(this, string, offset, length)

      case 'base64':
        // Warning: maxLength not taken into account in base64Write
        return base64Write(this, string, offset, length)

      case 'ucs2':
      case 'ucs-2':
      case 'utf16le':
      case 'utf-16le':
        return ucs2Write(this, string, offset, length)

      default:
        if (loweredCase) throw new TypeError('Unknown encoding: ' + encoding)
        encoding = ('' + encoding).toLowerCase();
        loweredCase = true;
    }
  }
};

Buffer$1.prototype.toJSON = function toJSON () {
  return {
    type: 'Buffer',
    data: Array.prototype.slice.call(this._arr || this, 0)
  }
};

function base64Slice (buf, start, end) {
  if (start === 0 && end === buf.length) {
    return fromByteArray(buf)
  } else {
    return fromByteArray(buf.slice(start, end))
  }
}

function utf8Slice (buf, start, end) {
  end = Math.min(buf.length, end);
  var res = [];

  var i = start;
  while (i < end) {
    var firstByte = buf[i];
    var codePoint = null;
    var bytesPerSequence = (firstByte > 0xEF) ? 4
      : (firstByte > 0xDF) ? 3
      : (firstByte > 0xBF) ? 2
      : 1;

    if (i + bytesPerSequence <= end) {
      var secondByte, thirdByte, fourthByte, tempCodePoint;

      switch (bytesPerSequence) {
        case 1:
          if (firstByte < 0x80) {
            codePoint = firstByte;
          }
          break
        case 2:
          secondByte = buf[i + 1];
          if ((secondByte & 0xC0) === 0x80) {
            tempCodePoint = (firstByte & 0x1F) << 0x6 | (secondByte & 0x3F);
            if (tempCodePoint > 0x7F) {
              codePoint = tempCodePoint;
            }
          }
          break
        case 3:
          secondByte = buf[i + 1];
          thirdByte = buf[i + 2];
          if ((secondByte & 0xC0) === 0x80 && (thirdByte & 0xC0) === 0x80) {
            tempCodePoint = (firstByte & 0xF) << 0xC | (secondByte & 0x3F) << 0x6 | (thirdByte & 0x3F);
            if (tempCodePoint > 0x7FF && (tempCodePoint < 0xD800 || tempCodePoint > 0xDFFF)) {
              codePoint = tempCodePoint;
            }
          }
          break
        case 4:
          secondByte = buf[i + 1];
          thirdByte = buf[i + 2];
          fourthByte = buf[i + 3];
          if ((secondByte & 0xC0) === 0x80 && (thirdByte & 0xC0) === 0x80 && (fourthByte & 0xC0) === 0x80) {
            tempCodePoint = (firstByte & 0xF) << 0x12 | (secondByte & 0x3F) << 0xC | (thirdByte & 0x3F) << 0x6 | (fourthByte & 0x3F);
            if (tempCodePoint > 0xFFFF && tempCodePoint < 0x110000) {
              codePoint = tempCodePoint;
            }
          }
      }
    }

    if (codePoint === null) {
      // we did not generate a valid codePoint so insert a
      // replacement char (U+FFFD) and advance only 1 byte
      codePoint = 0xFFFD;
      bytesPerSequence = 1;
    } else if (codePoint > 0xFFFF) {
      // encode to utf16 (surrogate pair dance)
      codePoint -= 0x10000;
      res.push(codePoint >>> 10 & 0x3FF | 0xD800);
      codePoint = 0xDC00 | codePoint & 0x3FF;
    }

    res.push(codePoint);
    i += bytesPerSequence;
  }

  return decodeCodePointsArray(res)
}

// Based on http://stackoverflow.com/a/22747272/680742, the browser with
// the lowest limit is Chrome, with 0x10000 args.
// We go 1 magnitude less, for safety
var MAX_ARGUMENTS_LENGTH = 0x1000;

function decodeCodePointsArray (codePoints) {
  var len = codePoints.length;
  if (len <= MAX_ARGUMENTS_LENGTH) {
    return String.fromCharCode.apply(String, codePoints) // avoid extra slice()
  }

  // Decode in chunks to avoid "call stack size exceeded".
  var res = '';
  var i = 0;
  while (i < len) {
    res += String.fromCharCode.apply(
      String,
      codePoints.slice(i, i += MAX_ARGUMENTS_LENGTH)
    );
  }
  return res
}

function asciiSlice (buf, start, end) {
  var ret = '';
  end = Math.min(buf.length, end);

  for (var i = start; i < end; ++i) {
    ret += String.fromCharCode(buf[i] & 0x7F);
  }
  return ret
}

function latin1Slice (buf, start, end) {
  var ret = '';
  end = Math.min(buf.length, end);

  for (var i = start; i < end; ++i) {
    ret += String.fromCharCode(buf[i]);
  }
  return ret
}

function hexSlice (buf, start, end) {
  var len = buf.length;

  if (!start || start < 0) start = 0;
  if (!end || end < 0 || end > len) end = len;

  var out = '';
  for (var i = start; i < end; ++i) {
    out += toHex(buf[i]);
  }
  return out
}

function utf16leSlice (buf, start, end) {
  var bytes = buf.slice(start, end);
  var res = '';
  for (var i = 0; i < bytes.length; i += 2) {
    res += String.fromCharCode(bytes[i] + bytes[i + 1] * 256);
  }
  return res
}

Buffer$1.prototype.slice = function slice (start, end) {
  var len = this.length;
  start = ~~start;
  end = end === undefined ? len : ~~end;

  if (start < 0) {
    start += len;
    if (start < 0) start = 0;
  } else if (start > len) {
    start = len;
  }

  if (end < 0) {
    end += len;
    if (end < 0) end = 0;
  } else if (end > len) {
    end = len;
  }

  if (end < start) end = start;

  var newBuf;
  if (Buffer$1.TYPED_ARRAY_SUPPORT) {
    newBuf = this.subarray(start, end);
    newBuf.__proto__ = Buffer$1.prototype;
  } else {
    var sliceLen = end - start;
    newBuf = new Buffer$1(sliceLen, undefined);
    for (var i = 0; i < sliceLen; ++i) {
      newBuf[i] = this[i + start];
    }
  }

  return newBuf
};

/*
 * Need to make sure that buffer isn't trying to write out of bounds.
 */
function checkOffset (offset, ext, length) {
  if ((offset % 1) !== 0 || offset < 0) throw new RangeError('offset is not uint')
  if (offset + ext > length) throw new RangeError('Trying to access beyond buffer length')
}

Buffer$1.prototype.readUIntLE = function readUIntLE (offset, byteLength, noAssert) {
  offset = offset | 0;
  byteLength = byteLength | 0;
  if (!noAssert) checkOffset(offset, byteLength, this.length);

  var val = this[offset];
  var mul = 1;
  var i = 0;
  while (++i < byteLength && (mul *= 0x100)) {
    val += this[offset + i] * mul;
  }

  return val
};

Buffer$1.prototype.readUIntBE = function readUIntBE (offset, byteLength, noAssert) {
  offset = offset | 0;
  byteLength = byteLength | 0;
  if (!noAssert) {
    checkOffset(offset, byteLength, this.length);
  }

  var val = this[offset + --byteLength];
  var mul = 1;
  while (byteLength > 0 && (mul *= 0x100)) {
    val += this[offset + --byteLength] * mul;
  }

  return val
};

Buffer$1.prototype.readUInt8 = function readUInt8 (offset, noAssert) {
  if (!noAssert) checkOffset(offset, 1, this.length);
  return this[offset]
};

Buffer$1.prototype.readUInt16LE = function readUInt16LE (offset, noAssert) {
  if (!noAssert) checkOffset(offset, 2, this.length);
  return this[offset] | (this[offset + 1] << 8)
};

Buffer$1.prototype.readUInt16BE = function readUInt16BE (offset, noAssert) {
  if (!noAssert) checkOffset(offset, 2, this.length);
  return (this[offset] << 8) | this[offset + 1]
};

Buffer$1.prototype.readUInt32LE = function readUInt32LE (offset, noAssert) {
  if (!noAssert) checkOffset(offset, 4, this.length);

  return ((this[offset]) |
      (this[offset + 1] << 8) |
      (this[offset + 2] << 16)) +
      (this[offset + 3] * 0x1000000)
};

Buffer$1.prototype.readUInt32BE = function readUInt32BE (offset, noAssert) {
  if (!noAssert) checkOffset(offset, 4, this.length);

  return (this[offset] * 0x1000000) +
    ((this[offset + 1] << 16) |
    (this[offset + 2] << 8) |
    this[offset + 3])
};

Buffer$1.prototype.readIntLE = function readIntLE (offset, byteLength, noAssert) {
  offset = offset | 0;
  byteLength = byteLength | 0;
  if (!noAssert) checkOffset(offset, byteLength, this.length);

  var val = this[offset];
  var mul = 1;
  var i = 0;
  while (++i < byteLength && (mul *= 0x100)) {
    val += this[offset + i] * mul;
  }
  mul *= 0x80;

  if (val >= mul) val -= Math.pow(2, 8 * byteLength);

  return val
};

Buffer$1.prototype.readIntBE = function readIntBE (offset, byteLength, noAssert) {
  offset = offset | 0;
  byteLength = byteLength | 0;
  if (!noAssert) checkOffset(offset, byteLength, this.length);

  var i = byteLength;
  var mul = 1;
  var val = this[offset + --i];
  while (i > 0 && (mul *= 0x100)) {
    val += this[offset + --i] * mul;
  }
  mul *= 0x80;

  if (val >= mul) val -= Math.pow(2, 8 * byteLength);

  return val
};

Buffer$1.prototype.readInt8 = function readInt8 (offset, noAssert) {
  if (!noAssert) checkOffset(offset, 1, this.length);
  if (!(this[offset] & 0x80)) return (this[offset])
  return ((0xff - this[offset] + 1) * -1)
};

Buffer$1.prototype.readInt16LE = function readInt16LE (offset, noAssert) {
  if (!noAssert) checkOffset(offset, 2, this.length);
  var val = this[offset] | (this[offset + 1] << 8);
  return (val & 0x8000) ? val | 0xFFFF0000 : val
};

Buffer$1.prototype.readInt16BE = function readInt16BE (offset, noAssert) {
  if (!noAssert) checkOffset(offset, 2, this.length);
  var val = this[offset + 1] | (this[offset] << 8);
  return (val & 0x8000) ? val | 0xFFFF0000 : val
};

Buffer$1.prototype.readInt32LE = function readInt32LE (offset, noAssert) {
  if (!noAssert) checkOffset(offset, 4, this.length);

  return (this[offset]) |
    (this[offset + 1] << 8) |
    (this[offset + 2] << 16) |
    (this[offset + 3] << 24)
};

Buffer$1.prototype.readInt32BE = function readInt32BE (offset, noAssert) {
  if (!noAssert) checkOffset(offset, 4, this.length);

  return (this[offset] << 24) |
    (this[offset + 1] << 16) |
    (this[offset + 2] << 8) |
    (this[offset + 3])
};

Buffer$1.prototype.readFloatLE = function readFloatLE (offset, noAssert) {
  if (!noAssert) checkOffset(offset, 4, this.length);
  return read(this, offset, true, 23, 4)
};

Buffer$1.prototype.readFloatBE = function readFloatBE (offset, noAssert) {
  if (!noAssert) checkOffset(offset, 4, this.length);
  return read(this, offset, false, 23, 4)
};

Buffer$1.prototype.readDoubleLE = function readDoubleLE (offset, noAssert) {
  if (!noAssert) checkOffset(offset, 8, this.length);
  return read(this, offset, true, 52, 8)
};

Buffer$1.prototype.readDoubleBE = function readDoubleBE (offset, noAssert) {
  if (!noAssert) checkOffset(offset, 8, this.length);
  return read(this, offset, false, 52, 8)
};

function checkInt (buf, value, offset, ext, max, min) {
  if (!internalIsBuffer(buf)) throw new TypeError('"buffer" argument must be a Buffer instance')
  if (value > max || value < min) throw new RangeError('"value" argument is out of bounds')
  if (offset + ext > buf.length) throw new RangeError('Index out of range')
}

Buffer$1.prototype.writeUIntLE = function writeUIntLE (value, offset, byteLength, noAssert) {
  value = +value;
  offset = offset | 0;
  byteLength = byteLength | 0;
  if (!noAssert) {
    var maxBytes = Math.pow(2, 8 * byteLength) - 1;
    checkInt(this, value, offset, byteLength, maxBytes, 0);
  }

  var mul = 1;
  var i = 0;
  this[offset] = value & 0xFF;
  while (++i < byteLength && (mul *= 0x100)) {
    this[offset + i] = (value / mul) & 0xFF;
  }

  return offset + byteLength
};

Buffer$1.prototype.writeUIntBE = function writeUIntBE (value, offset, byteLength, noAssert) {
  value = +value;
  offset = offset | 0;
  byteLength = byteLength | 0;
  if (!noAssert) {
    var maxBytes = Math.pow(2, 8 * byteLength) - 1;
    checkInt(this, value, offset, byteLength, maxBytes, 0);
  }

  var i = byteLength - 1;
  var mul = 1;
  this[offset + i] = value & 0xFF;
  while (--i >= 0 && (mul *= 0x100)) {
    this[offset + i] = (value / mul) & 0xFF;
  }

  return offset + byteLength
};

Buffer$1.prototype.writeUInt8 = function writeUInt8 (value, offset, noAssert) {
  value = +value;
  offset = offset | 0;
  if (!noAssert) checkInt(this, value, offset, 1, 0xff, 0);
  if (!Buffer$1.TYPED_ARRAY_SUPPORT) value = Math.floor(value);
  this[offset] = (value & 0xff);
  return offset + 1
};

function objectWriteUInt16 (buf, value, offset, littleEndian) {
  if (value < 0) value = 0xffff + value + 1;
  for (var i = 0, j = Math.min(buf.length - offset, 2); i < j; ++i) {
    buf[offset + i] = (value & (0xff << (8 * (littleEndian ? i : 1 - i)))) >>>
      (littleEndian ? i : 1 - i) * 8;
  }
}

Buffer$1.prototype.writeUInt16LE = function writeUInt16LE (value, offset, noAssert) {
  value = +value;
  offset = offset | 0;
  if (!noAssert) checkInt(this, value, offset, 2, 0xffff, 0);
  if (Buffer$1.TYPED_ARRAY_SUPPORT) {
    this[offset] = (value & 0xff);
    this[offset + 1] = (value >>> 8);
  } else {
    objectWriteUInt16(this, value, offset, true);
  }
  return offset + 2
};

Buffer$1.prototype.writeUInt16BE = function writeUInt16BE (value, offset, noAssert) {
  value = +value;
  offset = offset | 0;
  if (!noAssert) checkInt(this, value, offset, 2, 0xffff, 0);
  if (Buffer$1.TYPED_ARRAY_SUPPORT) {
    this[offset] = (value >>> 8);
    this[offset + 1] = (value & 0xff);
  } else {
    objectWriteUInt16(this, value, offset, false);
  }
  return offset + 2
};

function objectWriteUInt32 (buf, value, offset, littleEndian) {
  if (value < 0) value = 0xffffffff + value + 1;
  for (var i = 0, j = Math.min(buf.length - offset, 4); i < j; ++i) {
    buf[offset + i] = (value >>> (littleEndian ? i : 3 - i) * 8) & 0xff;
  }
}

Buffer$1.prototype.writeUInt32LE = function writeUInt32LE (value, offset, noAssert) {
  value = +value;
  offset = offset | 0;
  if (!noAssert) checkInt(this, value, offset, 4, 0xffffffff, 0);
  if (Buffer$1.TYPED_ARRAY_SUPPORT) {
    this[offset + 3] = (value >>> 24);
    this[offset + 2] = (value >>> 16);
    this[offset + 1] = (value >>> 8);
    this[offset] = (value & 0xff);
  } else {
    objectWriteUInt32(this, value, offset, true);
  }
  return offset + 4
};

Buffer$1.prototype.writeUInt32BE = function writeUInt32BE (value, offset, noAssert) {
  value = +value;
  offset = offset | 0;
  if (!noAssert) checkInt(this, value, offset, 4, 0xffffffff, 0);
  if (Buffer$1.TYPED_ARRAY_SUPPORT) {
    this[offset] = (value >>> 24);
    this[offset + 1] = (value >>> 16);
    this[offset + 2] = (value >>> 8);
    this[offset + 3] = (value & 0xff);
  } else {
    objectWriteUInt32(this, value, offset, false);
  }
  return offset + 4
};

Buffer$1.prototype.writeIntLE = function writeIntLE (value, offset, byteLength, noAssert) {
  value = +value;
  offset = offset | 0;
  if (!noAssert) {
    var limit = Math.pow(2, 8 * byteLength - 1);

    checkInt(this, value, offset, byteLength, limit - 1, -limit);
  }

  var i = 0;
  var mul = 1;
  var sub = 0;
  this[offset] = value & 0xFF;
  while (++i < byteLength && (mul *= 0x100)) {
    if (value < 0 && sub === 0 && this[offset + i - 1] !== 0) {
      sub = 1;
    }
    this[offset + i] = ((value / mul) >> 0) - sub & 0xFF;
  }

  return offset + byteLength
};

Buffer$1.prototype.writeIntBE = function writeIntBE (value, offset, byteLength, noAssert) {
  value = +value;
  offset = offset | 0;
  if (!noAssert) {
    var limit = Math.pow(2, 8 * byteLength - 1);

    checkInt(this, value, offset, byteLength, limit - 1, -limit);
  }

  var i = byteLength - 1;
  var mul = 1;
  var sub = 0;
  this[offset + i] = value & 0xFF;
  while (--i >= 0 && (mul *= 0x100)) {
    if (value < 0 && sub === 0 && this[offset + i + 1] !== 0) {
      sub = 1;
    }
    this[offset + i] = ((value / mul) >> 0) - sub & 0xFF;
  }

  return offset + byteLength
};

Buffer$1.prototype.writeInt8 = function writeInt8 (value, offset, noAssert) {
  value = +value;
  offset = offset | 0;
  if (!noAssert) checkInt(this, value, offset, 1, 0x7f, -0x80);
  if (!Buffer$1.TYPED_ARRAY_SUPPORT) value = Math.floor(value);
  if (value < 0) value = 0xff + value + 1;
  this[offset] = (value & 0xff);
  return offset + 1
};

Buffer$1.prototype.writeInt16LE = function writeInt16LE (value, offset, noAssert) {
  value = +value;
  offset = offset | 0;
  if (!noAssert) checkInt(this, value, offset, 2, 0x7fff, -0x8000);
  if (Buffer$1.TYPED_ARRAY_SUPPORT) {
    this[offset] = (value & 0xff);
    this[offset + 1] = (value >>> 8);
  } else {
    objectWriteUInt16(this, value, offset, true);
  }
  return offset + 2
};

Buffer$1.prototype.writeInt16BE = function writeInt16BE (value, offset, noAssert) {
  value = +value;
  offset = offset | 0;
  if (!noAssert) checkInt(this, value, offset, 2, 0x7fff, -0x8000);
  if (Buffer$1.TYPED_ARRAY_SUPPORT) {
    this[offset] = (value >>> 8);
    this[offset + 1] = (value & 0xff);
  } else {
    objectWriteUInt16(this, value, offset, false);
  }
  return offset + 2
};

Buffer$1.prototype.writeInt32LE = function writeInt32LE (value, offset, noAssert) {
  value = +value;
  offset = offset | 0;
  if (!noAssert) checkInt(this, value, offset, 4, 0x7fffffff, -0x80000000);
  if (Buffer$1.TYPED_ARRAY_SUPPORT) {
    this[offset] = (value & 0xff);
    this[offset + 1] = (value >>> 8);
    this[offset + 2] = (value >>> 16);
    this[offset + 3] = (value >>> 24);
  } else {
    objectWriteUInt32(this, value, offset, true);
  }
  return offset + 4
};

Buffer$1.prototype.writeInt32BE = function writeInt32BE (value, offset, noAssert) {
  value = +value;
  offset = offset | 0;
  if (!noAssert) checkInt(this, value, offset, 4, 0x7fffffff, -0x80000000);
  if (value < 0) value = 0xffffffff + value + 1;
  if (Buffer$1.TYPED_ARRAY_SUPPORT) {
    this[offset] = (value >>> 24);
    this[offset + 1] = (value >>> 16);
    this[offset + 2] = (value >>> 8);
    this[offset + 3] = (value & 0xff);
  } else {
    objectWriteUInt32(this, value, offset, false);
  }
  return offset + 4
};

function checkIEEE754 (buf, value, offset, ext, max, min) {
  if (offset + ext > buf.length) throw new RangeError('Index out of range')
  if (offset < 0) throw new RangeError('Index out of range')
}

function writeFloat (buf, value, offset, littleEndian, noAssert) {
  if (!noAssert) {
    checkIEEE754(buf, value, offset, 4);
  }
  write(buf, value, offset, littleEndian, 23, 4);
  return offset + 4
}

Buffer$1.prototype.writeFloatLE = function writeFloatLE (value, offset, noAssert) {
  return writeFloat(this, value, offset, true, noAssert)
};

Buffer$1.prototype.writeFloatBE = function writeFloatBE (value, offset, noAssert) {
  return writeFloat(this, value, offset, false, noAssert)
};

function writeDouble (buf, value, offset, littleEndian, noAssert) {
  if (!noAssert) {
    checkIEEE754(buf, value, offset, 8);
  }
  write(buf, value, offset, littleEndian, 52, 8);
  return offset + 8
}

Buffer$1.prototype.writeDoubleLE = function writeDoubleLE (value, offset, noAssert) {
  return writeDouble(this, value, offset, true, noAssert)
};

Buffer$1.prototype.writeDoubleBE = function writeDoubleBE (value, offset, noAssert) {
  return writeDouble(this, value, offset, false, noAssert)
};

// copy(targetBuffer, targetStart=0, sourceStart=0, sourceEnd=buffer.length)
Buffer$1.prototype.copy = function copy (target, targetStart, start, end) {
  if (!start) start = 0;
  if (!end && end !== 0) end = this.length;
  if (targetStart >= target.length) targetStart = target.length;
  if (!targetStart) targetStart = 0;
  if (end > 0 && end < start) end = start;

  // Copy 0 bytes; we're done
  if (end === start) return 0
  if (target.length === 0 || this.length === 0) return 0

  // Fatal error conditions
  if (targetStart < 0) {
    throw new RangeError('targetStart out of bounds')
  }
  if (start < 0 || start >= this.length) throw new RangeError('sourceStart out of bounds')
  if (end < 0) throw new RangeError('sourceEnd out of bounds')

  // Are we oob?
  if (end > this.length) end = this.length;
  if (target.length - targetStart < end - start) {
    end = target.length - targetStart + start;
  }

  var len = end - start;
  var i;

  if (this === target && start < targetStart && targetStart < end) {
    // descending copy from end
    for (i = len - 1; i >= 0; --i) {
      target[i + targetStart] = this[i + start];
    }
  } else if (len < 1000 || !Buffer$1.TYPED_ARRAY_SUPPORT) {
    // ascending copy from start
    for (i = 0; i < len; ++i) {
      target[i + targetStart] = this[i + start];
    }
  } else {
    Uint8Array.prototype.set.call(
      target,
      this.subarray(start, start + len),
      targetStart
    );
  }

  return len
};

// Usage:
//    buffer.fill(number[, offset[, end]])
//    buffer.fill(buffer[, offset[, end]])
//    buffer.fill(string[, offset[, end]][, encoding])
Buffer$1.prototype.fill = function fill (val, start, end, encoding) {
  // Handle string cases:
  if (typeof val === 'string') {
    if (typeof start === 'string') {
      encoding = start;
      start = 0;
      end = this.length;
    } else if (typeof end === 'string') {
      encoding = end;
      end = this.length;
    }
    if (val.length === 1) {
      var code = val.charCodeAt(0);
      if (code < 256) {
        val = code;
      }
    }
    if (encoding !== undefined && typeof encoding !== 'string') {
      throw new TypeError('encoding must be a string')
    }
    if (typeof encoding === 'string' && !Buffer$1.isEncoding(encoding)) {
      throw new TypeError('Unknown encoding: ' + encoding)
    }
  } else if (typeof val === 'number') {
    val = val & 255;
  }

  // Invalid ranges are not set to a default, so can range check early.
  if (start < 0 || this.length < start || this.length < end) {
    throw new RangeError('Out of range index')
  }

  if (end <= start) {
    return this
  }

  start = start >>> 0;
  end = end === undefined ? this.length : end >>> 0;

  if (!val) val = 0;

  var i;
  if (typeof val === 'number') {
    for (i = start; i < end; ++i) {
      this[i] = val;
    }
  } else {
    var bytes = internalIsBuffer(val)
      ? val
      : utf8ToBytes(new Buffer$1(val, encoding).toString());
    var len = bytes.length;
    for (i = 0; i < end - start; ++i) {
      this[i + start] = bytes[i % len];
    }
  }

  return this
};

// HELPER FUNCTIONS
// ================

var INVALID_BASE64_RE = /[^+\/0-9A-Za-z-_]/g;

function base64clean (str) {
  // Node strips out invalid characters like \n and \t from the string, base64-js does not
  str = stringtrim(str).replace(INVALID_BASE64_RE, '');
  // Node converts strings with length < 2 to ''
  if (str.length < 2) return ''
  // Node allows for non-padded base64 strings (missing trailing ===), base64-js does not
  while (str.length % 4 !== 0) {
    str = str + '=';
  }
  return str
}

function stringtrim (str) {
  if (str.trim) return str.trim()
  return str.replace(/^\s+|\s+$/g, '')
}

function toHex (n) {
  if (n < 16) return '0' + n.toString(16)
  return n.toString(16)
}

function utf8ToBytes (string, units) {
  units = units || Infinity;
  var codePoint;
  var length = string.length;
  var leadSurrogate = null;
  var bytes = [];

  for (var i = 0; i < length; ++i) {
    codePoint = string.charCodeAt(i);

    // is surrogate component
    if (codePoint > 0xD7FF && codePoint < 0xE000) {
      // last char was a lead
      if (!leadSurrogate) {
        // no lead yet
        if (codePoint > 0xDBFF) {
          // unexpected trail
          if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD);
          continue
        } else if (i + 1 === length) {
          // unpaired lead
          if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD);
          continue
        }

        // valid lead
        leadSurrogate = codePoint;

        continue
      }

      // 2 leads in a row
      if (codePoint < 0xDC00) {
        if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD);
        leadSurrogate = codePoint;
        continue
      }

      // valid surrogate pair
      codePoint = (leadSurrogate - 0xD800 << 10 | codePoint - 0xDC00) + 0x10000;
    } else if (leadSurrogate) {
      // valid bmp char, but last char was a lead
      if ((units -= 3) > -1) bytes.push(0xEF, 0xBF, 0xBD);
    }

    leadSurrogate = null;

    // encode utf8
    if (codePoint < 0x80) {
      if ((units -= 1) < 0) break
      bytes.push(codePoint);
    } else if (codePoint < 0x800) {
      if ((units -= 2) < 0) break
      bytes.push(
        codePoint >> 0x6 | 0xC0,
        codePoint & 0x3F | 0x80
      );
    } else if (codePoint < 0x10000) {
      if ((units -= 3) < 0) break
      bytes.push(
        codePoint >> 0xC | 0xE0,
        codePoint >> 0x6 & 0x3F | 0x80,
        codePoint & 0x3F | 0x80
      );
    } else if (codePoint < 0x110000) {
      if ((units -= 4) < 0) break
      bytes.push(
        codePoint >> 0x12 | 0xF0,
        codePoint >> 0xC & 0x3F | 0x80,
        codePoint >> 0x6 & 0x3F | 0x80,
        codePoint & 0x3F | 0x80
      );
    } else {
      throw new Error('Invalid code point')
    }
  }

  return bytes
}

function asciiToBytes (str) {
  var byteArray = [];
  for (var i = 0; i < str.length; ++i) {
    // Node's code seems to be doing this and not & 0x7F..
    byteArray.push(str.charCodeAt(i) & 0xFF);
  }
  return byteArray
}

function utf16leToBytes (str, units) {
  var c, hi, lo;
  var byteArray = [];
  for (var i = 0; i < str.length; ++i) {
    if ((units -= 2) < 0) break

    c = str.charCodeAt(i);
    hi = c >> 8;
    lo = c % 256;
    byteArray.push(lo);
    byteArray.push(hi);
  }

  return byteArray
}


function base64ToBytes (str) {
  return toByteArray(base64clean(str))
}

function blitBuffer (src, dst, offset, length) {
  for (var i = 0; i < length; ++i) {
    if ((i + offset >= dst.length) || (i >= src.length)) break
    dst[i + offset] = src[i];
  }
  return i
}

function isnan (val) {
  return val !== val // eslint-disable-line no-self-compare
}


// the following is from is-buffer, also by Feross Aboukhadijeh and with same lisence
// The _isBuffer check is for Safari 5-7 support, because it's missing
// Object.prototype.constructor. Remove this eventually
function isBuffer$1(obj) {
  return obj != null && (!!obj._isBuffer || isFastBuffer(obj) || isSlowBuffer(obj))
}

function isFastBuffer (obj) {
  return !!obj.constructor && typeof obj.constructor.isBuffer === 'function' && obj.constructor.isBuffer(obj)
}

// For Node v0.10 support. Remove this eventually.
function isSlowBuffer (obj) {
  return typeof obj.readFloatLE === 'function' && typeof obj.slice === 'function' && isFastBuffer(obj.slice(0, 0))
}

// shim for using process in browser
// based off https://github.com/defunctzombie/node-process/blob/master/browser.js

function defaultSetTimout() {
    throw new Error('setTimeout has not been defined');
}
function defaultClearTimeout () {
    throw new Error('clearTimeout has not been defined');
}
var cachedSetTimeout = defaultSetTimout;
var cachedClearTimeout = defaultClearTimeout;
if (typeof global$1.setTimeout === 'function') {
    cachedSetTimeout = setTimeout;
}
if (typeof global$1.clearTimeout === 'function') {
    cachedClearTimeout = clearTimeout;
}

function runTimeout(fun) {
    if (cachedSetTimeout === setTimeout) {
        //normal enviroments in sane situations
        return setTimeout(fun, 0);
    }
    // if setTimeout wasn't available but was latter defined
    if ((cachedSetTimeout === defaultSetTimout || !cachedSetTimeout) && setTimeout) {
        cachedSetTimeout = setTimeout;
        return setTimeout(fun, 0);
    }
    try {
        // when when somebody has screwed with setTimeout but no I.E. maddness
        return cachedSetTimeout(fun, 0);
    } catch(e){
        try {
            // When we are in I.E. but the script has been evaled so I.E. doesn't trust the global object when called normally
            return cachedSetTimeout.call(null, fun, 0);
        } catch(e){
            // same as above but when it's a version of I.E. that must have the global object for 'this', hopfully our context correct otherwise it will throw a global error
            return cachedSetTimeout.call(this, fun, 0);
        }
    }


}
function runClearTimeout(marker) {
    if (cachedClearTimeout === clearTimeout) {
        //normal enviroments in sane situations
        return clearTimeout(marker);
    }
    // if clearTimeout wasn't available but was latter defined
    if ((cachedClearTimeout === defaultClearTimeout || !cachedClearTimeout) && clearTimeout) {
        cachedClearTimeout = clearTimeout;
        return clearTimeout(marker);
    }
    try {
        // when when somebody has screwed with setTimeout but no I.E. maddness
        return cachedClearTimeout(marker);
    } catch (e){
        try {
            // When we are in I.E. but the script has been evaled so I.E. doesn't  trust the global object when called normally
            return cachedClearTimeout.call(null, marker);
        } catch (e){
            // same as above but when it's a version of I.E. that must have the global object for 'this', hopfully our context correct otherwise it will throw a global error.
            // Some versions of I.E. have different rules for clearTimeout vs setTimeout
            return cachedClearTimeout.call(this, marker);
        }
    }



}
var queue = [];
var draining = false;
var currentQueue;
var queueIndex = -1;

function cleanUpNextTick() {
    if (!draining || !currentQueue) {
        return;
    }
    draining = false;
    if (currentQueue.length) {
        queue = currentQueue.concat(queue);
    } else {
        queueIndex = -1;
    }
    if (queue.length) {
        drainQueue();
    }
}

function drainQueue() {
    if (draining) {
        return;
    }
    var timeout = runTimeout(cleanUpNextTick);
    draining = true;

    var len = queue.length;
    while(len) {
        currentQueue = queue;
        queue = [];
        while (++queueIndex < len) {
            if (currentQueue) {
                currentQueue[queueIndex].run();
            }
        }
        queueIndex = -1;
        len = queue.length;
    }
    currentQueue = null;
    draining = false;
    runClearTimeout(timeout);
}
function nextTick(fun) {
    var args = new Array(arguments.length - 1);
    if (arguments.length > 1) {
        for (var i = 1; i < arguments.length; i++) {
            args[i - 1] = arguments[i];
        }
    }
    queue.push(new Item(fun, args));
    if (queue.length === 1 && !draining) {
        runTimeout(drainQueue);
    }
}
// v8 likes predictible objects
function Item(fun, array) {
    this.fun = fun;
    this.array = array;
}
Item.prototype.run = function () {
    this.fun.apply(null, this.array);
};
var title = 'browser';
var platform = 'browser';
var browser = true;
var env = {};
var argv = [];
var version$1 = ''; // empty string to avoid regexp issues
var versions = {};
var release = {};
var config = {};

function noop() {}

var on = noop;
var addListener = noop;
var once = noop;
var off = noop;
var removeListener = noop;
var removeAllListeners = noop;
var emit = noop;

function binding(name) {
    throw new Error('process.binding is not supported');
}

function cwd () { return '/' }
function chdir (dir) {
    throw new Error('process.chdir is not supported');
}function umask() { return 0; }

// from https://github.com/kumavis/browser-process-hrtime/blob/master/index.js
var performance = global$1.performance || {};
var performanceNow =
  performance.now        ||
  performance.mozNow     ||
  performance.msNow      ||
  performance.oNow       ||
  performance.webkitNow  ||
  function(){ return (new Date()).getTime() };

// generate timestamp or delta
// see http://nodejs.org/api/process.html#process_process_hrtime
function hrtime(previousTimestamp){
  var clocktime = performanceNow.call(performance)*1e-3;
  var seconds = Math.floor(clocktime);
  var nanoseconds = Math.floor((clocktime%1)*1e9);
  if (previousTimestamp) {
    seconds = seconds - previousTimestamp[0];
    nanoseconds = nanoseconds - previousTimestamp[1];
    if (nanoseconds<0) {
      seconds--;
      nanoseconds += 1e9;
    }
  }
  return [seconds,nanoseconds]
}

var startTime = new Date();
function uptime() {
  var currentTime = new Date();
  var dif = currentTime - startTime;
  return dif / 1000;
}

var browser$1 = {
  nextTick: nextTick,
  title: title,
  browser: browser,
  env: env,
  argv: argv,
  version: version$1,
  versions: versions,
  on: on,
  addListener: addListener,
  once: once,
  off: off,
  removeListener: removeListener,
  removeAllListeners: removeAllListeners,
  emit: emit,
  binding: binding,
  cwd: cwd,
  chdir: chdir,
  umask: umask,
  hrtime: hrtime,
  platform: platform,
  release: release,
  config: config,
  uptime: uptime
};

var inherits;
if (typeof Object.create === 'function'){
  inherits = function inherits(ctor, superCtor) {
    // implementation from standard node.js 'util' module
    ctor.super_ = superCtor;
    ctor.prototype = Object.create(superCtor.prototype, {
      constructor: {
        value: ctor,
        enumerable: false,
        writable: true,
        configurable: true
      }
    });
  };
} else {
  inherits = function inherits(ctor, superCtor) {
    ctor.super_ = superCtor;
    var TempCtor = function () {};
    TempCtor.prototype = superCtor.prototype;
    ctor.prototype = new TempCtor();
    ctor.prototype.constructor = ctor;
  };
}
var inherits$1 = inherits;

var getOwnPropertyDescriptors = Object.getOwnPropertyDescriptors ||
  function getOwnPropertyDescriptors(obj) {
    var keys = Object.keys(obj);
    var descriptors = {};
    for (var i = 0; i < keys.length; i++) {
      descriptors[keys[i]] = Object.getOwnPropertyDescriptor(obj, keys[i]);
    }
    return descriptors;
  };

var formatRegExp = /%[sdj%]/g;
function format$1(f) {
  if (!isString$1(f)) {
    var objects = [];
    for (var i = 0; i < arguments.length; i++) {
      objects.push(inspect(arguments[i]));
    }
    return objects.join(' ');
  }

  var i = 1;
  var args = arguments;
  var len = args.length;
  var str = String(f).replace(formatRegExp, function(x) {
    if (x === '%%') return '%';
    if (i >= len) return x;
    switch (x) {
      case '%s': return String(args[i++]);
      case '%d': return Number(args[i++]);
      case '%j':
        try {
          return JSON.stringify(args[i++]);
        } catch (_) {
          return '[Circular]';
        }
      default:
        return x;
    }
  });
  for (var x = args[i]; i < len; x = args[++i]) {
    if (isNull(x) || !isObject$1(x)) {
      str += ' ' + x;
    } else {
      str += ' ' + inspect(x);
    }
  }
  return str;
}

// Mark that a method should not be used.
// Returns a modified function which warns once by default.
// If --no-deprecation is set, then it is a no-op.
function deprecate(fn, msg) {
  // Allow for deprecating things in the process of starting up.
  if (isUndefined(global$1.process)) {
    return function() {
      return deprecate(fn, msg).apply(this, arguments);
    };
  }

  if (browser$1.noDeprecation === true) {
    return fn;
  }

  var warned = false;
  function deprecated() {
    if (!warned) {
      if (browser$1.throwDeprecation) {
        throw new Error(msg);
      } else if (browser$1.traceDeprecation) {
        console.trace(msg);
      } else {
        console.error(msg);
      }
      warned = true;
    }
    return fn.apply(this, arguments);
  }

  return deprecated;
}

var debugs = {};
var debugEnviron;
function debuglog(set) {
  if (isUndefined(debugEnviron))
    debugEnviron = browser$1.env.NODE_DEBUG || '';
  set = set.toUpperCase();
  if (!debugs[set]) {
    if (new RegExp('\\b' + set + '\\b', 'i').test(debugEnviron)) {
      var pid = 0;
      debugs[set] = function() {
        var msg = format$1.apply(null, arguments);
        console.error('%s %d: %s', set, pid, msg);
      };
    } else {
      debugs[set] = function() {};
    }
  }
  return debugs[set];
}

/**
 * Echos the value of a value. Trys to print the value out
 * in the best way possible given the different types.
 *
 * @param {Object} obj The object to print out.
 * @param {Object} opts Optional options object that alters the output.
 */
/* legacy: obj, showHidden, depth, colors*/
function inspect(obj, opts) {
  // default options
  var ctx = {
    seen: [],
    stylize: stylizeNoColor
  };
  // legacy...
  if (arguments.length >= 3) ctx.depth = arguments[2];
  if (arguments.length >= 4) ctx.colors = arguments[3];
  if (isBoolean(opts)) {
    // legacy...
    ctx.showHidden = opts;
  } else if (opts) {
    // got an "options" object
    _extend(ctx, opts);
  }
  // set default options
  if (isUndefined(ctx.showHidden)) ctx.showHidden = false;
  if (isUndefined(ctx.depth)) ctx.depth = 2;
  if (isUndefined(ctx.colors)) ctx.colors = false;
  if (isUndefined(ctx.customInspect)) ctx.customInspect = true;
  if (ctx.colors) ctx.stylize = stylizeWithColor;
  return formatValue(ctx, obj, ctx.depth);
}

// http://en.wikipedia.org/wiki/ANSI_escape_code#graphics
inspect.colors = {
  'bold' : [1, 22],
  'italic' : [3, 23],
  'underline' : [4, 24],
  'inverse' : [7, 27],
  'white' : [37, 39],
  'grey' : [90, 39],
  'black' : [30, 39],
  'blue' : [34, 39],
  'cyan' : [36, 39],
  'green' : [32, 39],
  'magenta' : [35, 39],
  'red' : [31, 39],
  'yellow' : [33, 39]
};

// Don't use 'blue' not visible on cmd.exe
inspect.styles = {
  'special': 'cyan',
  'number': 'yellow',
  'boolean': 'yellow',
  'undefined': 'grey',
  'null': 'bold',
  'string': 'green',
  'date': 'magenta',
  // "name": intentionally not styling
  'regexp': 'red'
};


function stylizeWithColor(str, styleType) {
  var style = inspect.styles[styleType];

  if (style) {
    return '\u001b[' + inspect.colors[style][0] + 'm' + str +
           '\u001b[' + inspect.colors[style][1] + 'm';
  } else {
    return str;
  }
}


function stylizeNoColor(str, styleType) {
  return str;
}


function arrayToHash(array) {
  var hash = {};

  array.forEach(function(val, idx) {
    hash[val] = true;
  });

  return hash;
}


function formatValue(ctx, value, recurseTimes) {
  // Provide a hook for user-specified inspect functions.
  // Check that value is an object with an inspect function on it
  if (ctx.customInspect &&
      value &&
      isFunction(value.inspect) &&
      // Filter out the util module, it's inspect function is special
      value.inspect !== inspect &&
      // Also filter out any prototype objects using the circular check.
      !(value.constructor && value.constructor.prototype === value)) {
    var ret = value.inspect(recurseTimes, ctx);
    if (!isString$1(ret)) {
      ret = formatValue(ctx, ret, recurseTimes);
    }
    return ret;
  }

  // Primitive types cannot have properties
  var primitive = formatPrimitive(ctx, value);
  if (primitive) {
    return primitive;
  }

  // Look up the keys of the object.
  var keys = Object.keys(value);
  var visibleKeys = arrayToHash(keys);

  if (ctx.showHidden) {
    keys = Object.getOwnPropertyNames(value);
  }

  // IE doesn't make error fields non-enumerable
  // http://msdn.microsoft.com/en-us/library/ie/dww52sbt(v=vs.94).aspx
  if (isError(value)
      && (keys.indexOf('message') >= 0 || keys.indexOf('description') >= 0)) {
    return formatError(value);
  }

  // Some type of object without properties can be shortcutted.
  if (keys.length === 0) {
    if (isFunction(value)) {
      var name = value.name ? ': ' + value.name : '';
      return ctx.stylize('[Function' + name + ']', 'special');
    }
    if (isRegExp(value)) {
      return ctx.stylize(RegExp.prototype.toString.call(value), 'regexp');
    }
    if (isDate(value)) {
      return ctx.stylize(Date.prototype.toString.call(value), 'date');
    }
    if (isError(value)) {
      return formatError(value);
    }
  }

  var base = '', array = false, braces = ['{', '}'];

  // Make Array say that they are Array
  if (isArray$1(value)) {
    array = true;
    braces = ['[', ']'];
  }

  // Make functions say that they are functions
  if (isFunction(value)) {
    var n = value.name ? ': ' + value.name : '';
    base = ' [Function' + n + ']';
  }

  // Make RegExps say that they are RegExps
  if (isRegExp(value)) {
    base = ' ' + RegExp.prototype.toString.call(value);
  }

  // Make dates with properties first say the date
  if (isDate(value)) {
    base = ' ' + Date.prototype.toUTCString.call(value);
  }

  // Make error with message first say the error
  if (isError(value)) {
    base = ' ' + formatError(value);
  }

  if (keys.length === 0 && (!array || value.length == 0)) {
    return braces[0] + base + braces[1];
  }

  if (recurseTimes < 0) {
    if (isRegExp(value)) {
      return ctx.stylize(RegExp.prototype.toString.call(value), 'regexp');
    } else {
      return ctx.stylize('[Object]', 'special');
    }
  }

  ctx.seen.push(value);

  var output;
  if (array) {
    output = formatArray(ctx, value, recurseTimes, visibleKeys, keys);
  } else {
    output = keys.map(function(key) {
      return formatProperty(ctx, value, recurseTimes, visibleKeys, key, array);
    });
  }

  ctx.seen.pop();

  return reduceToSingleString(output, base, braces);
}


function formatPrimitive(ctx, value) {
  if (isUndefined(value))
    return ctx.stylize('undefined', 'undefined');
  if (isString$1(value)) {
    var simple = '\'' + JSON.stringify(value).replace(/^"|"$/g, '')
                                             .replace(/'/g, "\\'")
                                             .replace(/\\"/g, '"') + '\'';
    return ctx.stylize(simple, 'string');
  }
  if (isNumber(value))
    return ctx.stylize('' + value, 'number');
  if (isBoolean(value))
    return ctx.stylize('' + value, 'boolean');
  // For some reason typeof null is "object", so special case here.
  if (isNull(value))
    return ctx.stylize('null', 'null');
}


function formatError(value) {
  return '[' + Error.prototype.toString.call(value) + ']';
}


function formatArray(ctx, value, recurseTimes, visibleKeys, keys) {
  var output = [];
  for (var i = 0, l = value.length; i < l; ++i) {
    if (hasOwnProperty$2(value, String(i))) {
      output.push(formatProperty(ctx, value, recurseTimes, visibleKeys,
          String(i), true));
    } else {
      output.push('');
    }
  }
  keys.forEach(function(key) {
    if (!key.match(/^\d+$/)) {
      output.push(formatProperty(ctx, value, recurseTimes, visibleKeys,
          key, true));
    }
  });
  return output;
}


function formatProperty(ctx, value, recurseTimes, visibleKeys, key, array) {
  var name, str, desc;
  desc = Object.getOwnPropertyDescriptor(value, key) || { value: value[key] };
  if (desc.get) {
    if (desc.set) {
      str = ctx.stylize('[Getter/Setter]', 'special');
    } else {
      str = ctx.stylize('[Getter]', 'special');
    }
  } else {
    if (desc.set) {
      str = ctx.stylize('[Setter]', 'special');
    }
  }
  if (!hasOwnProperty$2(visibleKeys, key)) {
    name = '[' + key + ']';
  }
  if (!str) {
    if (ctx.seen.indexOf(desc.value) < 0) {
      if (isNull(recurseTimes)) {
        str = formatValue(ctx, desc.value, null);
      } else {
        str = formatValue(ctx, desc.value, recurseTimes - 1);
      }
      if (str.indexOf('\n') > -1) {
        if (array) {
          str = str.split('\n').map(function(line) {
            return '  ' + line;
          }).join('\n').substr(2);
        } else {
          str = '\n' + str.split('\n').map(function(line) {
            return '   ' + line;
          }).join('\n');
        }
      }
    } else {
      str = ctx.stylize('[Circular]', 'special');
    }
  }
  if (isUndefined(name)) {
    if (array && key.match(/^\d+$/)) {
      return str;
    }
    name = JSON.stringify('' + key);
    if (name.match(/^"([a-zA-Z_][a-zA-Z_0-9]*)"$/)) {
      name = name.substr(1, name.length - 2);
      name = ctx.stylize(name, 'name');
    } else {
      name = name.replace(/'/g, "\\'")
                 .replace(/\\"/g, '"')
                 .replace(/(^"|"$)/g, "'");
      name = ctx.stylize(name, 'string');
    }
  }

  return name + ': ' + str;
}


function reduceToSingleString(output, base, braces) {
  var length = output.reduce(function(prev, cur) {
    if (cur.indexOf('\n') >= 0) ;
    return prev + cur.replace(/\u001b\[\d\d?m/g, '').length + 1;
  }, 0);

  if (length > 60) {
    return braces[0] +
           (base === '' ? '' : base + '\n ') +
           ' ' +
           output.join(',\n  ') +
           ' ' +
           braces[1];
  }

  return braces[0] + base + ' ' + output.join(', ') + ' ' + braces[1];
}


// NOTE: These type checking functions intentionally don't use `instanceof`
// because it is fragile and can be easily faked with `Object.create()`.
function isArray$1(ar) {
  return Array.isArray(ar);
}

function isBoolean(arg) {
  return typeof arg === 'boolean';
}

function isNull(arg) {
  return arg === null;
}

function isNullOrUndefined(arg) {
  return arg == null;
}

function isNumber(arg) {
  return typeof arg === 'number';
}

function isString$1(arg) {
  return typeof arg === 'string';
}

function isSymbol(arg) {
  return typeof arg === 'symbol';
}

function isUndefined(arg) {
  return arg === void 0;
}

function isRegExp(re) {
  return isObject$1(re) && objectToString(re) === '[object RegExp]';
}

function isObject$1(arg) {
  return typeof arg === 'object' && arg !== null;
}

function isDate(d) {
  return isObject$1(d) && objectToString(d) === '[object Date]';
}

function isError(e) {
  return isObject$1(e) &&
      (objectToString(e) === '[object Error]' || e instanceof Error);
}

function isFunction(arg) {
  return typeof arg === 'function';
}

function isPrimitive(arg) {
  return arg === null ||
         typeof arg === 'boolean' ||
         typeof arg === 'number' ||
         typeof arg === 'string' ||
         typeof arg === 'symbol' ||  // ES6 symbol
         typeof arg === 'undefined';
}

function isBuffer(maybeBuf) {
  return Buffer$1.isBuffer(maybeBuf);
}

function objectToString(o) {
  return Object.prototype.toString.call(o);
}


function pad(n) {
  return n < 10 ? '0' + n.toString(10) : n.toString(10);
}


var months = ['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep',
              'Oct', 'Nov', 'Dec'];

// 26 Feb 16:19:34
function timestamp() {
  var d = new Date();
  var time = [pad(d.getHours()),
              pad(d.getMinutes()),
              pad(d.getSeconds())].join(':');
  return [d.getDate(), months[d.getMonth()], time].join(' ');
}


// log is just a thin wrapper to console.log that prepends a timestamp
function log() {
  console.log('%s - %s', timestamp(), format$1.apply(null, arguments));
}

function _extend(origin, add) {
  // Don't do anything if add isn't an object
  if (!add || !isObject$1(add)) return origin;

  var keys = Object.keys(add);
  var i = keys.length;
  while (i--) {
    origin[keys[i]] = add[keys[i]];
  }
  return origin;
}
function hasOwnProperty$2(obj, prop) {
  return Object.prototype.hasOwnProperty.call(obj, prop);
}

var kCustomPromisifiedSymbol = typeof Symbol !== 'undefined' ? Symbol('util.promisify.custom') : undefined;

function promisify(original) {
  if (typeof original !== 'function')
    throw new TypeError('The "original" argument must be of type Function');

  if (kCustomPromisifiedSymbol && original[kCustomPromisifiedSymbol]) {
    var fn = original[kCustomPromisifiedSymbol];
    if (typeof fn !== 'function') {
      throw new TypeError('The "util.promisify.custom" argument must be of type Function');
    }
    Object.defineProperty(fn, kCustomPromisifiedSymbol, {
      value: fn, enumerable: false, writable: false, configurable: true
    });
    return fn;
  }

  function fn() {
    var promiseResolve, promiseReject;
    var promise = new Promise(function (resolve, reject) {
      promiseResolve = resolve;
      promiseReject = reject;
    });

    var args = [];
    for (var i = 0; i < arguments.length; i++) {
      args.push(arguments[i]);
    }
    args.push(function (err, value) {
      if (err) {
        promiseReject(err);
      } else {
        promiseResolve(value);
      }
    });

    try {
      original.apply(this, args);
    } catch (err) {
      promiseReject(err);
    }

    return promise;
  }

  Object.setPrototypeOf(fn, Object.getPrototypeOf(original));

  if (kCustomPromisifiedSymbol) Object.defineProperty(fn, kCustomPromisifiedSymbol, {
    value: fn, enumerable: false, writable: false, configurable: true
  });
  return Object.defineProperties(
    fn,
    getOwnPropertyDescriptors(original)
  );
}

promisify.custom = kCustomPromisifiedSymbol;

function callbackifyOnRejected(reason, cb) {
  // `!reason` guard inspired by bluebird (Ref: https://goo.gl/t5IS6M).
  // Because `null` is a special error value in callbacks which means "no error
  // occurred", we error-wrap so the callback consumer can distinguish between
  // "the promise rejected with null" or "the promise fulfilled with undefined".
  if (!reason) {
    var newReason = new Error('Promise was rejected with a falsy value');
    newReason.reason = reason;
    reason = newReason;
  }
  return cb(reason);
}

function callbackify(original) {
  if (typeof original !== 'function') {
    throw new TypeError('The "original" argument must be of type Function');
  }

  // We DO NOT return the promise as it gives the user a false sense that
  // the promise is actually somehow related to the callback's execution
  // and that the callback throwing will reject the promise.
  function callbackified() {
    var args = [];
    for (var i = 0; i < arguments.length; i++) {
      args.push(arguments[i]);
    }

    var maybeCb = args.pop();
    if (typeof maybeCb !== 'function') {
      throw new TypeError('The last argument must be of type Function');
    }
    var self = this;
    var cb = function() {
      return maybeCb.apply(self, arguments);
    };
    // In true node style we process the callback on `nextTick` with all the
    // implications (stack, `uncaughtException`, `async_hooks`)
    original.apply(this, args)
      .then(function(ret) { browser$1.nextTick(cb.bind(null, null, ret)); },
        function(rej) { browser$1.nextTick(callbackifyOnRejected.bind(null, rej, cb)); });
  }

  Object.setPrototypeOf(callbackified, Object.getPrototypeOf(original));
  Object.defineProperties(callbackified, getOwnPropertyDescriptors(original));
  return callbackified;
}

var _polyfillNode_util = {
  inherits: inherits$1,
  _extend: _extend,
  log: log,
  isBuffer: isBuffer,
  isPrimitive: isPrimitive,
  isFunction: isFunction,
  isError: isError,
  isDate: isDate,
  isObject: isObject$1,
  isRegExp: isRegExp,
  isUndefined: isUndefined,
  isSymbol: isSymbol,
  isString: isString$1,
  isNumber: isNumber,
  isNullOrUndefined: isNullOrUndefined,
  isNull: isNull,
  isBoolean: isBoolean,
  isArray: isArray$1,
  inspect: inspect,
  deprecate: deprecate,
  format: format$1,
  debuglog: debuglog,
  promisify: promisify,
  callbackify: callbackify,
};

var _polyfillNode_util$1 = /*#__PURE__*/Object.freeze({
  __proto__: null,
  _extend: _extend,
  callbackify: callbackify,
  debuglog: debuglog,
  default: _polyfillNode_util,
  deprecate: deprecate,
  format: format$1,
  inherits: inherits$1,
  inspect: inspect,
  isArray: isArray$1,
  isBoolean: isBoolean,
  isBuffer: isBuffer,
  isDate: isDate,
  isError: isError,
  isFunction: isFunction,
  isNull: isNull,
  isNullOrUndefined: isNullOrUndefined,
  isNumber: isNumber,
  isObject: isObject$1,
  isPrimitive: isPrimitive,
  isRegExp: isRegExp,
  isString: isString$1,
  isSymbol: isSymbol,
  isUndefined: isUndefined,
  log: log,
  promisify: promisify
});

// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.


// If obj.hasOwnProperty has been overridden, then calling
// obj.hasOwnProperty(prop) will break.
// See: https://github.com/joyent/node/issues/1707
function hasOwnProperty$1(obj, prop) {
  return Object.prototype.hasOwnProperty.call(obj, prop);
}
var isArray = Array.isArray || function (xs) {
  return Object.prototype.toString.call(xs) === '[object Array]';
};
function stringifyPrimitive(v) {
  switch (typeof v) {
    case 'string':
      return v;

    case 'boolean':
      return v ? 'true' : 'false';

    case 'number':
      return isFinite(v) ? v : '';

    default:
      return '';
  }
}

function stringify$5 (obj, sep, eq, name) {
  sep = sep || '&';
  eq = eq || '=';
  if (obj === null) {
    obj = undefined;
  }

  if (typeof obj === 'object') {
    return map(objectKeys(obj), function(k) {
      var ks = encodeURIComponent(stringifyPrimitive(k)) + eq;
      if (isArray(obj[k])) {
        return map(obj[k], function(v) {
          return ks + encodeURIComponent(stringifyPrimitive(v));
        }).join(sep);
      } else {
        return ks + encodeURIComponent(stringifyPrimitive(obj[k]));
      }
    }).join(sep);

  }

  if (!name) return '';
  return encodeURIComponent(stringifyPrimitive(name)) + eq +
         encodeURIComponent(stringifyPrimitive(obj));
}
function map (xs, f) {
  if (xs.map) return xs.map(f);
  var res = [];
  for (var i = 0; i < xs.length; i++) {
    res.push(f(xs[i], i));
  }
  return res;
}

var objectKeys = Object.keys || function (obj) {
  var res = [];
  for (var key in obj) {
    if (Object.prototype.hasOwnProperty.call(obj, key)) res.push(key);
  }
  return res;
};

function parse$6(qs, sep, eq, options) {
  sep = sep || '&';
  eq = eq || '=';
  var obj = {};

  if (typeof qs !== 'string' || qs.length === 0) {
    return obj;
  }

  var regexp = /\+/g;
  qs = qs.split(sep);

  var maxKeys = 1000;
  if (options && typeof options.maxKeys === 'number') {
    maxKeys = options.maxKeys;
  }

  var len = qs.length;
  // maxKeys <= 0 means that we should not limit keys count
  if (maxKeys > 0 && len > maxKeys) {
    len = maxKeys;
  }

  for (var i = 0; i < len; ++i) {
    var x = qs[i].replace(regexp, '%20'),
        idx = x.indexOf(eq),
        kstr, vstr, k, v;

    if (idx >= 0) {
      kstr = x.substr(0, idx);
      vstr = x.substr(idx + 1);
    } else {
      kstr = x;
      vstr = '';
    }

    k = decodeURIComponent(kstr);
    v = decodeURIComponent(vstr);

    if (!hasOwnProperty$1(obj, k)) {
      obj[k] = v;
    } else if (isArray(obj[k])) {
      obj[k].push(v);
    } else {
      obj[k] = [obj[k], v];
    }
  }

  return obj;
}

// WHATWG API
const URL$1 = global$1.URL;
const URLSearchParams = global$1.URLSearchParams;
var _polyfillNode_url = {
  parse: urlParse,
  resolve: urlResolve,
  resolveObject: urlResolveObject,
  fileURLToPath: urlFileURLToPath,
  format: urlFormat,
  Url: Url,

  // WHATWG API
  URL: URL$1,
  URLSearchParams,  
};
function Url() {
  this.protocol = null;
  this.slashes = null;
  this.auth = null;
  this.host = null;
  this.port = null;
  this.hostname = null;
  this.hash = null;
  this.search = null;
  this.query = null;
  this.pathname = null;
  this.path = null;
  this.href = null;
}

// Reference: RFC 3986, RFC 1808, RFC 2396

// define these here so at least they only have to be
// compiled once on the first module load.
var protocolPattern = /^([a-z0-9.+-]+:)/i,
  portPattern = /:[0-9]*$/,

  // Special case for a simple path URL
  simplePathPattern = /^(\/\/?(?!\/)[^\?\s]*)(\?[^\s]*)?$/,

  // RFC 2396: characters reserved for delimiting URLs.
  // We actually just auto-escape these.
  delims = ['<', '>', '"', '`', ' ', '\r', '\n', '\t'],

  // RFC 2396: characters not allowed for various reasons.
  unwise = ['{', '}', '|', '\\', '^', '`'].concat(delims),

  // Allowed by RFCs, but cause of XSS attacks.  Always escape these.
  autoEscape = ['\''].concat(unwise),
  // Characters that are never ever allowed in a hostname.
  // Note that any invalid chars are also handled, but these
  // are the ones that are *expected* to be seen, so we fast-path
  // them.
  nonHostChars = ['%', '/', '?', ';', '#'].concat(autoEscape),
  hostEndingChars = ['/', '?', '#'],
  hostnameMaxLen = 255,
  hostnamePartPattern = /^[+a-z0-9A-Z_-]{0,63}$/,
  hostnamePartStart = /^([+a-z0-9A-Z_-]{0,63})(.*)$/,
  // protocols that can allow "unsafe" and "unwise" chars.
  unsafeProtocol = {
    'javascript': true,
    'javascript:': true
  },
  // protocols that never have a hostname.
  hostlessProtocol = {
    'javascript': true,
    'javascript:': true
  },
  // protocols that always contain a // bit.
  slashedProtocol = {
    'http': true,
    'https': true,
    'ftp': true,
    'gopher': true,
    'file': true,
    'http:': true,
    'https:': true,
    'ftp:': true,
    'gopher:': true,
    'file:': true
  };

function urlParse(url, parseQueryString, slashesDenoteHost) {
  if (url && isObject$1(url) && url instanceof Url) return url;

  var u = new Url;
  u.parse(url, parseQueryString, slashesDenoteHost);
  return u;
}
Url.prototype.parse = function(url, parseQueryString, slashesDenoteHost) {
  return parse$5(this, url, parseQueryString, slashesDenoteHost);
};

function parse$5(self, url, parseQueryString, slashesDenoteHost) {
  if (!isString$1(url)) {
    throw new TypeError('Parameter \'url\' must be a string, not ' + typeof url);
  }

  // Copy chrome, IE, opera backslash-handling behavior.
  // Back slashes before the query string get converted to forward slashes
  // See: https://code.google.com/p/chromium/issues/detail?id=25916
  var queryIndex = url.indexOf('?'),
    splitter =
    (queryIndex !== -1 && queryIndex < url.indexOf('#')) ? '?' : '#',
    uSplit = url.split(splitter),
    slashRegex = /\\/g;
  uSplit[0] = uSplit[0].replace(slashRegex, '/');
  url = uSplit.join(splitter);

  var rest = url;

  // trim before proceeding.
  // This is to support parse stuff like "  http://foo.com  \n"
  rest = rest.trim();

  if (!slashesDenoteHost && url.split('#').length === 1) {
    // Try fast path regexp
    var simplePath = simplePathPattern.exec(rest);
    if (simplePath) {
      self.path = rest;
      self.href = rest;
      self.pathname = simplePath[1];
      if (simplePath[2]) {
        self.search = simplePath[2];
        if (parseQueryString) {
          self.query = parse$6(self.search.substr(1));
        } else {
          self.query = self.search.substr(1);
        }
      } else if (parseQueryString) {
        self.search = '';
        self.query = {};
      }
      return self;
    }
  }

  var proto = protocolPattern.exec(rest);
  if (proto) {
    proto = proto[0];
    var lowerProto = proto.toLowerCase();
    self.protocol = lowerProto;
    rest = rest.substr(proto.length);
  }

  // figure out if it's got a host
  // user@server is *always* interpreted as a hostname, and url
  // resolution will treat //foo/bar as host=foo,path=bar because that's
  // how the browser resolves relative URLs.
  if (slashesDenoteHost || proto || rest.match(/^\/\/[^@\/]+@[^@\/]+/)) {
    var slashes = rest.substr(0, 2) === '//';
    if (slashes && !(proto && hostlessProtocol[proto])) {
      rest = rest.substr(2);
      self.slashes = true;
    }
  }
  var i, hec, l, p;
  if (!hostlessProtocol[proto] &&
    (slashes || (proto && !slashedProtocol[proto]))) {

    // there's a hostname.
    // the first instance of /, ?, ;, or # ends the host.
    //
    // If there is an @ in the hostname, then non-host chars *are* allowed
    // to the left of the last @ sign, unless some host-ending character
    // comes *before* the @-sign.
    // URLs are obnoxious.
    //
    // ex:
    // http://a@b@c/ => user:a@b host:c
    // http://a@b?@c => user:a host:c path:/?@c

    // v0.12 TODO(isaacs): This is not quite how Chrome does things.
    // Review our test case against browsers more comprehensively.

    // find the first instance of any hostEndingChars
    var hostEnd = -1;
    for (i = 0; i < hostEndingChars.length; i++) {
      hec = rest.indexOf(hostEndingChars[i]);
      if (hec !== -1 && (hostEnd === -1 || hec < hostEnd))
        hostEnd = hec;
    }

    // at this point, either we have an explicit point where the
    // auth portion cannot go past, or the last @ char is the decider.
    var auth, atSign;
    if (hostEnd === -1) {
      // atSign can be anywhere.
      atSign = rest.lastIndexOf('@');
    } else {
      // atSign must be in auth portion.
      // http://a@b/c@d => host:b auth:a path:/c@d
      atSign = rest.lastIndexOf('@', hostEnd);
    }

    // Now we have a portion which is definitely the auth.
    // Pull that off.
    if (atSign !== -1) {
      auth = rest.slice(0, atSign);
      rest = rest.slice(atSign + 1);
      self.auth = decodeURIComponent(auth);
    }

    // the host is the remaining to the left of the first non-host char
    hostEnd = -1;
    for (i = 0; i < nonHostChars.length; i++) {
      hec = rest.indexOf(nonHostChars[i]);
      if (hec !== -1 && (hostEnd === -1 || hec < hostEnd))
        hostEnd = hec;
    }
    // if we still have not hit it, then the entire thing is a host.
    if (hostEnd === -1)
      hostEnd = rest.length;

    self.host = rest.slice(0, hostEnd);
    rest = rest.slice(hostEnd);

    // pull out port.
    parseHost(self);

    // we've indicated that there is a hostname,
    // so even if it's empty, it has to be present.
    self.hostname = self.hostname || '';

    // if hostname begins with [ and ends with ]
    // assume that it's an IPv6 address.
    var ipv6Hostname = self.hostname[0] === '[' &&
      self.hostname[self.hostname.length - 1] === ']';

    // validate a little.
    if (!ipv6Hostname) {
      var hostparts = self.hostname.split(/\./);
      for (i = 0, l = hostparts.length; i < l; i++) {
        var part = hostparts[i];
        if (!part) continue;
        if (!part.match(hostnamePartPattern)) {
          var newpart = '';
          for (var j = 0, k = part.length; j < k; j++) {
            if (part.charCodeAt(j) > 127) {
              // we replace non-ASCII char with a temporary placeholder
              // we need this to make sure size of hostname is not
              // broken by replacing non-ASCII by nothing
              newpart += 'x';
            } else {
              newpart += part[j];
            }
          }
          // we test again with ASCII char only
          if (!newpart.match(hostnamePartPattern)) {
            var validParts = hostparts.slice(0, i);
            var notHost = hostparts.slice(i + 1);
            var bit = part.match(hostnamePartStart);
            if (bit) {
              validParts.push(bit[1]);
              notHost.unshift(bit[2]);
            }
            if (notHost.length) {
              rest = '/' + notHost.join('.') + rest;
            }
            self.hostname = validParts.join('.');
            break;
          }
        }
      }
    }

    if (self.hostname.length > hostnameMaxLen) {
      self.hostname = '';
    } else {
      // hostnames are always lower case.
      self.hostname = self.hostname.toLowerCase();
    }

    if (!ipv6Hostname) {
      // IDNA Support: Returns a punycoded representation of "domain".
      // It only converts parts of the domain name that
      // have non-ASCII characters, i.e. it doesn't matter if
      // you call it with a domain that already is ASCII-only.
      self.hostname = toASCII(self.hostname);
    }

    p = self.port ? ':' + self.port : '';
    var h = self.hostname || '';
    self.host = h + p;
    self.href += self.host;

    // strip [ and ] from the hostname
    // the host field still retains them, though
    if (ipv6Hostname) {
      self.hostname = self.hostname.substr(1, self.hostname.length - 2);
      if (rest[0] !== '/') {
        rest = '/' + rest;
      }
    }
  }

  // now rest is set to the post-host stuff.
  // chop off any delim chars.
  if (!unsafeProtocol[lowerProto]) {

    // First, make 100% sure that any "autoEscape" chars get
    // escaped, even if encodeURIComponent doesn't think they
    // need to be.
    for (i = 0, l = autoEscape.length; i < l; i++) {
      var ae = autoEscape[i];
      if (rest.indexOf(ae) === -1)
        continue;
      var esc = encodeURIComponent(ae);
      if (esc === ae) {
        esc = escape(ae);
      }
      rest = rest.split(ae).join(esc);
    }
  }


  // chop off from the tail first.
  var hash = rest.indexOf('#');
  if (hash !== -1) {
    // got a fragment string.
    self.hash = rest.substr(hash);
    rest = rest.slice(0, hash);
  }
  var qm = rest.indexOf('?');
  if (qm !== -1) {
    self.search = rest.substr(qm);
    self.query = rest.substr(qm + 1);
    if (parseQueryString) {
      self.query = parse$6(self.query);
    }
    rest = rest.slice(0, qm);
  } else if (parseQueryString) {
    // no query string, but parseQueryString still requested
    self.search = '';
    self.query = {};
  }
  if (rest) self.pathname = rest;
  if (slashedProtocol[lowerProto] &&
    self.hostname && !self.pathname) {
    self.pathname = '/';
  }

  //to support http.request
  if (self.pathname || self.search) {
    p = self.pathname || '';
    var s = self.search || '';
    self.path = p + s;
  }

  // finally, reconstruct the href based on what has been validated.
  self.href = format(self);
  return self;
}

function urlFileURLToPath(path) {
  if (typeof path === 'string')
    path = new Url().parse(path);
  else if (!(path instanceof Url))
    throw new TypeError('The "path" argument must be of type string or an instance of URL. Received type ' + (typeof path) + String(path));
  if (path.protocol !== 'file:')
    throw new TypeError('The URL must be of scheme file');
  return getPathFromURLPosix(path);
}

function getPathFromURLPosix(url) {
  const pathname = url.pathname;
  for (let n = 0; n < pathname.length; n++) {
    if (pathname[n] === '%') {
      const third = pathname.codePointAt(n + 2) | 0x20;
      if (pathname[n + 1] === '2' && third === 102) {
        throw new TypeError(
          'must not include encoded / characters'
        );
      }
    }
  }
  return decodeURIComponent(pathname);
}

// format a parsed object into a url string
function urlFormat(obj) {
  // ensure it's an object, and not a string url.
  // If it's an obj, this is a no-op.
  // this way, you can call url_format() on strings
  // to clean up potentially wonky urls.
  if (isString$1(obj)) obj = parse$5({}, obj);
  return format(obj);
}

function format(self) {
  var auth = self.auth || '';
  if (auth) {
    auth = encodeURIComponent(auth);
    auth = auth.replace(/%3A/i, ':');
    auth += '@';
  }

  var protocol = self.protocol || '',
    pathname = self.pathname || '',
    hash = self.hash || '',
    host = false,
    query = '';

  if (self.host) {
    host = auth + self.host;
  } else if (self.hostname) {
    host = auth + (self.hostname.indexOf(':') === -1 ?
      self.hostname :
      '[' + this.hostname + ']');
    if (self.port) {
      host += ':' + self.port;
    }
  }

  if (self.query &&
    isObject$1(self.query) &&
    Object.keys(self.query).length) {
    query = stringify$5(self.query);
  }

  var search = self.search || (query && ('?' + query)) || '';

  if (protocol && protocol.substr(-1) !== ':') protocol += ':';

  // only the slashedProtocols get the //.  Not mailto:, xmpp:, etc.
  // unless they had them to begin with.
  if (self.slashes ||
    (!protocol || slashedProtocol[protocol]) && host !== false) {
    host = '//' + (host || '');
    if (pathname && pathname.charAt(0) !== '/') pathname = '/' + pathname;
  } else if (!host) {
    host = '';
  }

  if (hash && hash.charAt(0) !== '#') hash = '#' + hash;
  if (search && search.charAt(0) !== '?') search = '?' + search;

  pathname = pathname.replace(/[?#]/g, function(match) {
    return encodeURIComponent(match);
  });
  search = search.replace('#', '%23');

  return protocol + host + pathname + search + hash;
}

Url.prototype.format = function() {
  return format(this);
};

function urlResolve(source, relative) {
  return urlParse(source, false, true).resolve(relative);
}

Url.prototype.resolve = function(relative) {
  return this.resolveObject(urlParse(relative, false, true)).format();
};

function urlResolveObject(source, relative) {
  if (!source) return relative;
  return urlParse(source, false, true).resolveObject(relative);
}

Url.prototype.resolveObject = function(relative) {
  if (isString$1(relative)) {
    var rel = new Url();
    rel.parse(relative, false, true);
    relative = rel;
  }

  var result = new Url();
  var tkeys = Object.keys(this);
  for (var tk = 0; tk < tkeys.length; tk++) {
    var tkey = tkeys[tk];
    result[tkey] = this[tkey];
  }

  // hash is always overridden, no matter what.
  // even href="" will remove it.
  result.hash = relative.hash;

  // if the relative url is empty, then there's nothing left to do here.
  if (relative.href === '') {
    result.href = result.format();
    return result;
  }

  // hrefs like //foo/bar always cut to the protocol.
  if (relative.slashes && !relative.protocol) {
    // take everything except the protocol from relative
    var rkeys = Object.keys(relative);
    for (var rk = 0; rk < rkeys.length; rk++) {
      var rkey = rkeys[rk];
      if (rkey !== 'protocol')
        result[rkey] = relative[rkey];
    }

    //urlParse appends trailing / to urls like http://www.example.com
    if (slashedProtocol[result.protocol] &&
      result.hostname && !result.pathname) {
      result.path = result.pathname = '/';
    }

    result.href = result.format();
    return result;
  }
  var relPath;
  if (relative.protocol && relative.protocol !== result.protocol) {
    // if it's a known url protocol, then changing
    // the protocol does weird things
    // first, if it's not file:, then we MUST have a host,
    // and if there was a path
    // to begin with, then we MUST have a path.
    // if it is file:, then the host is dropped,
    // because that's known to be hostless.
    // anything else is assumed to be absolute.
    if (!slashedProtocol[relative.protocol]) {
      var keys = Object.keys(relative);
      for (var v = 0; v < keys.length; v++) {
        var k = keys[v];
        result[k] = relative[k];
      }
      result.href = result.format();
      return result;
    }

    result.protocol = relative.protocol;
    if (!relative.host && !hostlessProtocol[relative.protocol]) {
      relPath = (relative.pathname || '').split('/');
      while (relPath.length && !(relative.host = relPath.shift()));
      if (!relative.host) relative.host = '';
      if (!relative.hostname) relative.hostname = '';
      if (relPath[0] !== '') relPath.unshift('');
      if (relPath.length < 2) relPath.unshift('');
      result.pathname = relPath.join('/');
    } else {
      result.pathname = relative.pathname;
    }
    result.search = relative.search;
    result.query = relative.query;
    result.host = relative.host || '';
    result.auth = relative.auth;
    result.hostname = relative.hostname || relative.host;
    result.port = relative.port;
    // to support http.request
    if (result.pathname || result.search) {
      var p = result.pathname || '';
      var s = result.search || '';
      result.path = p + s;
    }
    result.slashes = result.slashes || relative.slashes;
    result.href = result.format();
    return result;
  }

  var isSourceAbs = (result.pathname && result.pathname.charAt(0) === '/'),
    isRelAbs = (
      relative.host ||
      relative.pathname && relative.pathname.charAt(0) === '/'
    ),
    mustEndAbs = (isRelAbs || isSourceAbs ||
      (result.host && relative.pathname)),
    removeAllDots = mustEndAbs,
    srcPath = result.pathname && result.pathname.split('/') || [],
    psychotic = result.protocol && !slashedProtocol[result.protocol];
  relPath = relative.pathname && relative.pathname.split('/') || [];
  // if the url is a non-slashed url, then relative
  // links like ../.. should be able
  // to crawl up to the hostname, as well.  This is strange.
  // result.protocol has already been set by now.
  // Later on, put the first path part into the host field.
  if (psychotic) {
    result.hostname = '';
    result.port = null;
    if (result.host) {
      if (srcPath[0] === '') srcPath[0] = result.host;
      else srcPath.unshift(result.host);
    }
    result.host = '';
    if (relative.protocol) {
      relative.hostname = null;
      relative.port = null;
      if (relative.host) {
        if (relPath[0] === '') relPath[0] = relative.host;
        else relPath.unshift(relative.host);
      }
      relative.host = null;
    }
    mustEndAbs = mustEndAbs && (relPath[0] === '' || srcPath[0] === '');
  }
  var authInHost;
  if (isRelAbs) {
    // it's absolute.
    result.host = (relative.host || relative.host === '') ?
      relative.host : result.host;
    result.hostname = (relative.hostname || relative.hostname === '') ?
      relative.hostname : result.hostname;
    result.search = relative.search;
    result.query = relative.query;
    srcPath = relPath;
    // fall through to the dot-handling below.
  } else if (relPath.length) {
    // it's relative
    // throw away the existing file, and take the new path instead.
    if (!srcPath) srcPath = [];
    srcPath.pop();
    srcPath = srcPath.concat(relPath);
    result.search = relative.search;
    result.query = relative.query;
  } else if (!isNullOrUndefined(relative.search)) {
    // just pull out the search.
    // like href='?foo'.
    // Put this after the other two cases because it simplifies the booleans
    if (psychotic) {
      result.hostname = result.host = srcPath.shift();
      //occationaly the auth can get stuck only in host
      //this especially happens in cases like
      //url.resolveObject('mailto:local1@domain1', 'local2@domain2')
      authInHost = result.host && result.host.indexOf('@') > 0 ?
        result.host.split('@') : false;
      if (authInHost) {
        result.auth = authInHost.shift();
        result.host = result.hostname = authInHost.shift();
      }
    }
    result.search = relative.search;
    result.query = relative.query;
    //to support http.request
    if (!isNull(result.pathname) || !isNull(result.search)) {
      result.path = (result.pathname ? result.pathname : '') +
        (result.search ? result.search : '');
    }
    result.href = result.format();
    return result;
  }

  if (!srcPath.length) {
    // no path at all.  easy.
    // we've already handled the other stuff above.
    result.pathname = null;
    //to support http.request
    if (result.search) {
      result.path = '/' + result.search;
    } else {
      result.path = null;
    }
    result.href = result.format();
    return result;
  }

  // if a url ENDs in . or .., then it must get a trailing slash.
  // however, if it ends in anything else non-slashy,
  // then it must NOT get a trailing slash.
  var last = srcPath.slice(-1)[0];
  var hasTrailingSlash = (
    (result.host || relative.host || srcPath.length > 1) &&
    (last === '.' || last === '..') || last === '');

  // strip single dots, resolve double dots to parent dir
  // if the path tries to go above the root, `up` ends up > 0
  var up = 0;
  for (var i = srcPath.length; i >= 0; i--) {
    last = srcPath[i];
    if (last === '.') {
      srcPath.splice(i, 1);
    } else if (last === '..') {
      srcPath.splice(i, 1);
      up++;
    } else if (up) {
      srcPath.splice(i, 1);
      up--;
    }
  }

  // if the path is allowed to go above the root, restore leading ..s
  if (!mustEndAbs && !removeAllDots) {
    for (; up--; up) {
      srcPath.unshift('..');
    }
  }

  if (mustEndAbs && srcPath[0] !== '' &&
    (!srcPath[0] || srcPath[0].charAt(0) !== '/')) {
    srcPath.unshift('');
  }

  if (hasTrailingSlash && (srcPath.join('/').substr(-1) !== '/')) {
    srcPath.push('');
  }

  var isAbsolute = srcPath[0] === '' ||
    (srcPath[0] && srcPath[0].charAt(0) === '/');

  // put the host back
  if (psychotic) {
    result.hostname = result.host = isAbsolute ? '' :
      srcPath.length ? srcPath.shift() : '';
    //occationaly the auth can get stuck only in host
    //this especially happens in cases like
    //url.resolveObject('mailto:local1@domain1', 'local2@domain2')
    authInHost = result.host && result.host.indexOf('@') > 0 ?
      result.host.split('@') : false;
    if (authInHost) {
      result.auth = authInHost.shift();
      result.host = result.hostname = authInHost.shift();
    }
  }

  mustEndAbs = mustEndAbs || (result.host && srcPath.length);

  if (mustEndAbs && !isAbsolute) {
    srcPath.unshift('');
  }

  if (!srcPath.length) {
    result.pathname = null;
    result.path = null;
  } else {
    result.pathname = srcPath.join('/');
  }

  //to support request.http
  if (!isNull(result.pathname) || !isNull(result.search)) {
    result.path = (result.pathname ? result.pathname : '') +
      (result.search ? result.search : '');
  }
  result.auth = relative.auth || result.auth;
  result.slashes = result.slashes || relative.slashes;
  result.href = result.format();
  return result;
};

Url.prototype.parseHost = function() {
  return parseHost(this);
};

function parseHost(self) {
  var host = self.host;
  var port = portPattern.exec(host);
  if (port) {
    port = port[0];
    if (port !== ':') {
      self.port = port.substr(1);
    }
    host = host.substr(0, host.length - port.length);
  }
  if (host) self.hostname = host;
}

var _polyfillNode_url$1 = /*#__PURE__*/Object.freeze({
  __proto__: null,
  URL: URL$1,
  URLSearchParams: URLSearchParams,
  Url: Url,
  default: _polyfillNode_url,
  fileURLToPath: urlFileURLToPath,
  format: urlFormat,
  parse: urlParse,
  resolve: urlResolve,
  resolveObject: urlResolveObject
});

function isRelativeUrl(url) {
  const firstChar = url.charAt(0);
  return firstChar === "." || firstChar === "~" || firstChar === "@";
}
const externalRE = /^(https?:)?\/\//;
function isExternalUrl(url) {
  return externalRE.test(url);
}
const dataUrlRE = /^\s*data:/i;
function isDataUrl(url) {
  return dataUrlRE.test(url);
}
function parseUrl(url) {
  const firstChar = url.charAt(0);
  if (firstChar === "~") {
    const secondChar = url.charAt(1);
    url = url.slice(secondChar === "/" ? 2 : 1);
  }
  return parseUriParts(url);
}
function parseUriParts(urlString) {
  return urlParse(isString$2(urlString) ? urlString : "", false, true);
}

var __defProp$9 = Object.defineProperty;
var __defProps$9 = Object.defineProperties;
var __getOwnPropDescs$9 = Object.getOwnPropertyDescriptors;
var __getOwnPropSymbols$9 = Object.getOwnPropertySymbols;
var __hasOwnProp$9 = Object.prototype.hasOwnProperty;
var __propIsEnum$9 = Object.prototype.propertyIsEnumerable;
var __defNormalProp$9 = (obj, key, value) => key in obj ? __defProp$9(obj, key, { enumerable: true, configurable: true, writable: true, value }) : obj[key] = value;
var __spreadValues$9 = (a, b) => {
  for (var prop in b || (b = {}))
    if (__hasOwnProp$9.call(b, prop))
      __defNormalProp$9(a, prop, b[prop]);
  if (__getOwnPropSymbols$9)
    for (var prop of __getOwnPropSymbols$9(b)) {
      if (__propIsEnum$9.call(b, prop))
        __defNormalProp$9(a, prop, b[prop]);
    }
  return a;
};
var __spreadProps$9 = (a, b) => __defProps$9(a, __getOwnPropDescs$9(b));
const defaultAssetUrlOptions = {
  base: null,
  includeAbsolute: false,
  tags: {
    video: ["src", "poster"],
    source: ["src"],
    img: ["src"],
    image: ["xlink:href", "href"],
    use: ["xlink:href", "href"]
  }
};
const normalizeOptions = (options) => {
  if (Object.keys(options).some((key) => isArray$3(options[key]))) {
    return __spreadProps$9(__spreadValues$9({}, defaultAssetUrlOptions), {
      tags: options
    });
  }
  return __spreadValues$9(__spreadValues$9({}, defaultAssetUrlOptions), options);
};
const createAssetUrlTransformWithOptions = (options) => {
  return (node, context) => transformAssetUrl(node, context, options);
};
const transformAssetUrl = (node, context, options = defaultAssetUrlOptions) => {
  if (node.type === 1) {
    if (!node.props.length) {
      return;
    }
    const tags = options.tags || defaultAssetUrlOptions.tags;
    const attrs = tags[node.tag];
    const wildCardAttrs = tags["*"];
    if (!attrs && !wildCardAttrs) {
      return;
    }
    const assetAttrs = (attrs || []).concat(wildCardAttrs || []);
    node.props.forEach((attr, index) => {
      if (attr.type !== 6 || !assetAttrs.includes(attr.name) || !attr.value || isExternalUrl(attr.value.content) || isDataUrl(attr.value.content) || attr.value.content[0] === "#" || !options.includeAbsolute && !isRelativeUrl(attr.value.content)) {
        return;
      }
      const url = parseUrl(attr.value.content);
      if (options.base && attr.value.content[0] === ".") {
        const base = parseUrl(options.base);
        const protocol = base.protocol || "";
        const host = base.host ? protocol + "//" + base.host : "";
        const basePath = base.path || "/";
        attr.value.content = host + (path.posix || path).join(basePath, url.path + (url.hash || ""));
        return;
      }
      const exp = getImportsExpressionExp(url.path, url.hash, attr.loc, context);
      node.props[index] = {
        type: 7,
        name: "bind",
        arg: createSimpleExpression(attr.name, true, attr.loc),
        exp,
        modifiers: [],
        loc: attr.loc
      };
    });
  }
};
function getImportsExpressionExp(path2, hash, loc, context) {
  if (path2) {
    let name;
    let exp;
    const existingIndex = context.imports.findIndex((i) => i.path === path2);
    if (existingIndex > -1) {
      name = `_imports_${existingIndex}`;
      exp = context.imports[existingIndex].exp;
    } else {
      name = `_imports_${context.imports.length}`;
      exp = createSimpleExpression(
        name,
        false,
        loc,
        3
      );
      context.imports.push({ exp, path: path2 });
    }
    if (!hash) {
      return exp;
    }
    const hashExp = `${name} + '${hash}'`;
    const finalExp = createSimpleExpression(
      hashExp,
      false,
      loc,
      3
    );
    if (!context.hoistStatic) {
      return finalExp;
    }
    const existingHoistIndex = context.hoists.findIndex((h) => {
      return h && h.type === 4 && !h.isStatic && h.content === hashExp;
    });
    if (existingHoistIndex > -1) {
      return createSimpleExpression(
        `_hoisted_${existingHoistIndex + 1}`,
        false,
        loc,
        3
      );
    }
    return context.hoist(finalExp);
  } else {
    return createSimpleExpression(`''`, false, loc, 3);
  }
}

const srcsetTags = ["img", "source"];
const escapedSpaceCharacters = /( |\\t|\\n|\\f|\\r)+/g;
const createSrcsetTransformWithOptions = (options) => {
  return (node, context) => transformSrcset(node, context, options);
};
const transformSrcset = (node, context, options = defaultAssetUrlOptions) => {
  if (node.type === 1) {
    if (srcsetTags.includes(node.tag) && node.props.length) {
      node.props.forEach((attr, index) => {
        if (attr.name === "srcset" && attr.type === 6) {
          if (!attr.value)
            return;
          const value = attr.value.content;
          if (!value)
            return;
          const imageCandidates = value.split(",").map((s) => {
            const [url, descriptor] = s.replace(escapedSpaceCharacters, " ").trim().split(" ", 2);
            return { url, descriptor };
          });
          for (let i = 0; i < imageCandidates.length; i++) {
            const { url } = imageCandidates[i];
            if (isDataUrl(url)) {
              imageCandidates[i + 1].url = url + "," + imageCandidates[i + 1].url;
              imageCandidates.splice(i, 1);
            }
          }
          const shouldProcessUrl = (url) => {
            return !isExternalUrl(url) && !isDataUrl(url) && (options.includeAbsolute || isRelativeUrl(url));
          };
          if (!imageCandidates.some(({ url }) => shouldProcessUrl(url))) {
            return;
          }
          if (options.base) {
            const base = options.base;
            const set = [];
            let needImportTransform = false;
            imageCandidates.forEach((candidate) => {
              let { url, descriptor } = candidate;
              descriptor = descriptor ? ` ${descriptor}` : ``;
              if (url[0] === ".") {
                candidate.url = (path.posix || path).join(base, url);
                set.push(candidate.url + descriptor);
              } else if (shouldProcessUrl(url)) {
                needImportTransform = true;
              } else {
                set.push(url + descriptor);
              }
            });
            if (!needImportTransform) {
              attr.value.content = set.join(", ");
              return;
            }
          }
          const compoundExpression = createCompoundExpression([], attr.loc);
          imageCandidates.forEach(({ url, descriptor }, index2) => {
            if (shouldProcessUrl(url)) {
              const { path: path2 } = parseUrl(url);
              let exp2;
              if (path2) {
                const existingImportsIndex = context.imports.findIndex(
                  (i) => i.path === path2
                );
                if (existingImportsIndex > -1) {
                  exp2 = createSimpleExpression(
                    `_imports_${existingImportsIndex}`,
                    false,
                    attr.loc,
                    3
                  );
                } else {
                  exp2 = createSimpleExpression(
                    `_imports_${context.imports.length}`,
                    false,
                    attr.loc,
                    3
                  );
                  context.imports.push({ exp: exp2, path: path2 });
                }
                compoundExpression.children.push(exp2);
              }
            } else {
              const exp2 = createSimpleExpression(
                `"${url}"`,
                false,
                attr.loc,
                3
              );
              compoundExpression.children.push(exp2);
            }
            const isNotLast = imageCandidates.length - 1 > index2;
            if (descriptor && isNotLast) {
              compoundExpression.children.push(` + ' ${descriptor}, ' + `);
            } else if (descriptor) {
              compoundExpression.children.push(` + ' ${descriptor}'`);
            } else if (isNotLast) {
              compoundExpression.children.push(` + ', ' + `);
            }
          });
          let exp = compoundExpression;
          if (context.hoistStatic) {
            exp = context.hoist(compoundExpression);
            exp.constType = 3;
          }
          node.props[index] = {
            type: 7,
            name: "bind",
            arg: createSimpleExpression("srcset", true, attr.loc),
            exp,
            modifiers: [],
            loc: attr.loc
          };
        }
      });
    }
  }
};

const SSR_INTERPOLATE = Symbol(`ssrInterpolate`);
const SSR_RENDER_VNODE = Symbol(`ssrRenderVNode`);
const SSR_RENDER_COMPONENT = Symbol(`ssrRenderComponent`);
const SSR_RENDER_SLOT = Symbol(`ssrRenderSlot`);
const SSR_RENDER_SLOT_INNER = Symbol(`ssrRenderSlotInner`);
const SSR_RENDER_CLASS = Symbol(`ssrRenderClass`);
const SSR_RENDER_STYLE = Symbol(`ssrRenderStyle`);
const SSR_RENDER_ATTRS = Symbol(`ssrRenderAttrs`);
const SSR_RENDER_ATTR = Symbol(`ssrRenderAttr`);
const SSR_RENDER_DYNAMIC_ATTR = Symbol(`ssrRenderDynamicAttr`);
const SSR_RENDER_LIST = Symbol(`ssrRenderList`);
const SSR_INCLUDE_BOOLEAN_ATTR = Symbol(`ssrIncludeBooleanAttr`);
const SSR_LOOSE_EQUAL = Symbol(`ssrLooseEqual`);
const SSR_LOOSE_CONTAIN = Symbol(`ssrLooseContain`);
const SSR_RENDER_DYNAMIC_MODEL = Symbol(`ssrRenderDynamicModel`);
const SSR_GET_DYNAMIC_MODEL_PROPS = Symbol(`ssrGetDynamicModelProps`);
const SSR_RENDER_TELEPORT = Symbol(`ssrRenderTeleport`);
const SSR_RENDER_SUSPENSE = Symbol(`ssrRenderSuspense`);
const SSR_GET_DIRECTIVE_PROPS = Symbol(`ssrGetDirectiveProps`);
const ssrHelpers = {
  [SSR_INTERPOLATE]: `ssrInterpolate`,
  [SSR_RENDER_VNODE]: `ssrRenderVNode`,
  [SSR_RENDER_COMPONENT]: `ssrRenderComponent`,
  [SSR_RENDER_SLOT]: `ssrRenderSlot`,
  [SSR_RENDER_SLOT_INNER]: `ssrRenderSlotInner`,
  [SSR_RENDER_CLASS]: `ssrRenderClass`,
  [SSR_RENDER_STYLE]: `ssrRenderStyle`,
  [SSR_RENDER_ATTRS]: `ssrRenderAttrs`,
  [SSR_RENDER_ATTR]: `ssrRenderAttr`,
  [SSR_RENDER_DYNAMIC_ATTR]: `ssrRenderDynamicAttr`,
  [SSR_RENDER_LIST]: `ssrRenderList`,
  [SSR_INCLUDE_BOOLEAN_ATTR]: `ssrIncludeBooleanAttr`,
  [SSR_LOOSE_EQUAL]: `ssrLooseEqual`,
  [SSR_LOOSE_CONTAIN]: `ssrLooseContain`,
  [SSR_RENDER_DYNAMIC_MODEL]: `ssrRenderDynamicModel`,
  [SSR_GET_DYNAMIC_MODEL_PROPS]: `ssrGetDynamicModelProps`,
  [SSR_RENDER_TELEPORT]: `ssrRenderTeleport`,
  [SSR_RENDER_SUSPENSE]: `ssrRenderSuspense`,
  [SSR_GET_DIRECTIVE_PROPS]: `ssrGetDirectiveProps`
};
registerRuntimeHelpers(ssrHelpers);

const ssrTransformIf = createStructuralDirectiveTransform(
  /^(if|else|else-if)$/,
  processIf
);
function ssrProcessIf(node, context, disableNestedFragments = false) {
  const [rootBranch] = node.branches;
  const ifStatement = createIfStatement(
    rootBranch.condition,
    processIfBranch(rootBranch, context, disableNestedFragments)
  );
  context.pushStatement(ifStatement);
  let currentIf = ifStatement;
  for (let i = 1; i < node.branches.length; i++) {
    const branch = node.branches[i];
    const branchBlockStatement = processIfBranch(
      branch,
      context,
      disableNestedFragments
    );
    if (branch.condition) {
      currentIf = currentIf.alternate = createIfStatement(
        branch.condition,
        branchBlockStatement
      );
    } else {
      currentIf.alternate = branchBlockStatement;
    }
  }
  if (!currentIf.alternate) {
    currentIf.alternate = createBlockStatement([
      createCallExpression(`_push`, ["`<!---->`"])
    ]);
  }
}
function processIfBranch(branch, context, disableNestedFragments = false) {
  const { children } = branch;
  const needFragmentWrapper = !disableNestedFragments && (children.length !== 1 || children[0].type !== 1) && // optimize away nested fragments when the only child is a ForNode
  !(children.length === 1 && children[0].type === 11);
  return processChildrenAsStatement(branch, context, needFragmentWrapper);
}

const ssrTransformFor = createStructuralDirectiveTransform(
  "for",
  processFor
);
function ssrProcessFor(node, context, disableNestedFragments = false) {
  const needFragmentWrapper = !disableNestedFragments && (node.children.length !== 1 || node.children[0].type !== 1);
  const renderLoop = createFunctionExpression(
    createForLoopParams(node.parseResult)
  );
  renderLoop.body = processChildrenAsStatement(
    node,
    context,
    needFragmentWrapper
  );
  if (!disableNestedFragments) {
    context.pushStringPart(`<!--[-->`);
  }
  context.pushStatement(
    createCallExpression(context.helper(SSR_RENDER_LIST), [
      node.source,
      renderLoop
    ])
  );
  if (!disableNestedFragments) {
    context.pushStringPart(`<!--]-->`);
  }
}

const ssrTransformSlotOutlet = (node, context) => {
  if (isSlotOutlet(node)) {
    const { slotName, slotProps } = processSlotOutlet(node, context);
    const args = [
      `_ctx.$slots`,
      slotName,
      slotProps || `{}`,
      // fallback content placeholder. will be replaced in the process phase
      `null`,
      `_push`,
      `_parent`
    ];
    if (context.scopeId && context.slotted !== false) {
      args.push(`"${context.scopeId}-s"`);
    }
    let method = SSR_RENDER_SLOT;
    const parent = context.parent;
    if (parent && parent.type === 1 && parent.tagType === 1 && resolveComponentType(parent, context, true) === TRANSITION && parent.children.filter((c) => c.type === 1).length === 1) {
      method = SSR_RENDER_SLOT_INNER;
      if (!(context.scopeId && context.slotted !== false)) {
        args.push("null");
      }
      args.push("true");
    }
    node.ssrCodegenNode = createCallExpression(context.helper(method), args);
  }
};
function ssrProcessSlotOutlet(node, context) {
  const renderCall = node.ssrCodegenNode;
  if (node.children.length) {
    const fallbackRenderFn = createFunctionExpression([]);
    fallbackRenderFn.body = processChildrenAsStatement(node, context);
    renderCall.arguments[3] = fallbackRenderFn;
  }
  if (context.withSlotScopeId) {
    const slotScopeId = renderCall.arguments[6];
    renderCall.arguments[6] = slotScopeId ? `${slotScopeId} + _scopeId` : `_scopeId`;
  }
  context.pushStatement(node.ssrCodegenNode);
}

function createSSRCompilerError(code, loc) {
  return createCompilerError(code, loc, SSRErrorMessages);
}
const SSRErrorMessages = {
  [65]: `Unsafe attribute name for SSR.`,
  [66]: `Missing the 'to' prop on teleport element.`,
  [67]: `Invalid AST node during SSR transform.`
};

function ssrProcessTeleport(node, context) {
  const targetProp = findProp(node, "to");
  if (!targetProp) {
    context.onError(
      createSSRCompilerError(66, node.loc)
    );
    return;
  }
  let target;
  if (targetProp.type === 6) {
    target = targetProp.value && createSimpleExpression(targetProp.value.content, true);
  } else {
    target = targetProp.exp;
  }
  if (!target) {
    context.onError(
      createSSRCompilerError(
        66,
        targetProp.loc
      )
    );
    return;
  }
  const disabledProp = findProp(
    node,
    "disabled",
    false,
    true
    /* allow empty */
  );
  const disabled = disabledProp ? disabledProp.type === 6 ? `true` : disabledProp.exp || `false` : `false`;
  const contentRenderFn = createFunctionExpression(
    [`_push`],
    void 0,
    // Body is added later
    true,
    // newline
    false,
    // isSlot
    node.loc
  );
  contentRenderFn.body = processChildrenAsStatement(node, context);
  context.pushStatement(
    createCallExpression(context.helper(SSR_RENDER_TELEPORT), [
      `_push`,
      contentRenderFn,
      target,
      disabled,
      `_parent`
    ])
  );
}

const wipMap$2 = /* @__PURE__ */ new WeakMap();
function ssrTransformSuspense(node, context) {
  return () => {
    if (node.children.length) {
      const wipEntry = {
        slotsExp: null,
        // to be immediately set
        wipSlots: []
      };
      wipMap$2.set(node, wipEntry);
      wipEntry.slotsExp = buildSlots(node, context, (_props, children, loc) => {
        const fn = createFunctionExpression(
          [],
          void 0,
          // no return, assign body later
          true,
          // newline
          false,
          // suspense slots are not treated as normal slots
          loc
        );
        wipEntry.wipSlots.push({
          fn,
          children
        });
        return fn;
      }).slots;
    }
  };
}
function ssrProcessSuspense(node, context) {
  const wipEntry = wipMap$2.get(node);
  if (!wipEntry) {
    return;
  }
  const { slotsExp, wipSlots } = wipEntry;
  for (let i = 0; i < wipSlots.length; i++) {
    const slot = wipSlots[i];
    slot.fn.body = processChildrenAsStatement(slot, context);
  }
  context.pushStatement(
    createCallExpression(context.helper(SSR_RENDER_SUSPENSE), [
      `_push`,
      slotsExp
    ])
  );
}

const rawChildrenMap = /* @__PURE__ */ new WeakMap();
const ssrTransformElement = (node, context) => {
  if (node.type !== 1 || node.tagType !== 0) {
    return;
  }
  return function ssrPostTransformElement() {
    const openTag = [`<${node.tag}`];
    const needTagForRuntime = node.tag === "textarea" || node.tag.indexOf("-") > 0;
    const hasDynamicVBind = hasDynamicKeyVBind(node);
    const hasCustomDir = node.props.some(
      (p) => p.type === 7 && !isBuiltInDirective(p.name)
    );
    const needMergeProps = hasDynamicVBind || hasCustomDir;
    if (needMergeProps) {
      const { props, directives } = buildProps(
        node,
        context,
        node.props,
        false,
        false,
        true
        /* ssr */
      );
      if (props || directives.length) {
        const mergedProps = buildSSRProps(props, directives, context);
        const propsExp = createCallExpression(
          context.helper(SSR_RENDER_ATTRS),
          [mergedProps]
        );
        if (node.tag === "textarea") {
          const existingText = node.children[0];
          if (!existingText || existingText.type !== 5) {
            const tempId = `_temp${context.temps++}`;
            propsExp.arguments = [
              createAssignmentExpression(
                createSimpleExpression(tempId, false),
                mergedProps
              )
            ];
            rawChildrenMap.set(
              node,
              createCallExpression(context.helper(SSR_INTERPOLATE), [
                createConditionalExpression(
                  createSimpleExpression(`"value" in ${tempId}`, false),
                  createSimpleExpression(`${tempId}.value`, false),
                  createSimpleExpression(
                    existingText ? existingText.content : ``,
                    true
                  ),
                  false
                )
              ])
            );
          }
        } else if (node.tag === "input") {
          const vModel = findVModel(node);
          if (vModel) {
            const tempId = `_temp${context.temps++}`;
            const tempExp = createSimpleExpression(tempId, false);
            propsExp.arguments = [
              createSequenceExpression([
                createAssignmentExpression(tempExp, mergedProps),
                createCallExpression(context.helper(MERGE_PROPS), [
                  tempExp,
                  createCallExpression(
                    context.helper(SSR_GET_DYNAMIC_MODEL_PROPS),
                    [
                      tempExp,
                      // existing props
                      vModel.exp
                      // model
                    ]
                  )
                ])
              ])
            ];
          }
        }
        if (needTagForRuntime) {
          propsExp.arguments.push(`"${node.tag}"`);
        }
        openTag.push(propsExp);
      }
    }
    let dynamicClassBinding = void 0;
    let staticClassBinding = void 0;
    let dynamicStyleBinding = void 0;
    for (let i = 0; i < node.props.length; i++) {
      const prop = node.props[i];
      if (node.tag === "input" && isTrueFalseValue(prop)) {
        continue;
      }
      if (prop.type === 7) {
        if (prop.name === "html" && prop.exp) {
          rawChildrenMap.set(node, prop.exp);
        } else if (prop.name === "text" && prop.exp) {
          node.children = [createInterpolation(prop.exp, prop.loc)];
        } else if (prop.name === "slot") {
          context.onError(
            createCompilerError(40, prop.loc)
          );
        } else if (isTextareaWithValue(node, prop) && prop.exp) {
          if (!needMergeProps) {
            node.children = [createInterpolation(prop.exp, prop.loc)];
          }
        } else if (!needMergeProps && prop.name !== "on") {
          const directiveTransform = context.directiveTransforms[prop.name];
          if (directiveTransform) {
            const { props, ssrTagParts } = directiveTransform(
              prop,
              node,
              context
            );
            if (ssrTagParts) {
              openTag.push(...ssrTagParts);
            }
            for (let j = 0; j < props.length; j++) {
              const { key, value } = props[j];
              if (isStaticExp(key)) {
                let attrName = key.content;
                if (attrName === "key" || attrName === "ref") {
                  continue;
                }
                if (attrName === "class") {
                  openTag.push(
                    ` class="`,
                    dynamicClassBinding = createCallExpression(
                      context.helper(SSR_RENDER_CLASS),
                      [value]
                    ),
                    `"`
                  );
                } else if (attrName === "style") {
                  if (dynamicStyleBinding) {
                    mergeCall(dynamicStyleBinding, value);
                  } else {
                    openTag.push(
                      ` style="`,
                      dynamicStyleBinding = createCallExpression(
                        context.helper(SSR_RENDER_STYLE),
                        [value]
                      ),
                      `"`
                    );
                  }
                } else {
                  attrName = node.tag.indexOf("-") > 0 ? attrName : propsToAttrMap[attrName] || attrName.toLowerCase();
                  if (isBooleanAttr(attrName)) {
                    openTag.push(
                      createConditionalExpression(
                        createCallExpression(
                          context.helper(SSR_INCLUDE_BOOLEAN_ATTR),
                          [value]
                        ),
                        createSimpleExpression(" " + attrName, true),
                        createSimpleExpression("", true),
                        false
                        /* no newline */
                      )
                    );
                  } else if (isSSRSafeAttrName(attrName)) {
                    openTag.push(
                      createCallExpression(context.helper(SSR_RENDER_ATTR), [
                        key,
                        value
                      ])
                    );
                  } else {
                    context.onError(
                      createSSRCompilerError(
                        65,
                        key.loc
                      )
                    );
                  }
                }
              } else {
                const args = [key, value];
                if (needTagForRuntime) {
                  args.push(`"${node.tag}"`);
                }
                openTag.push(
                  createCallExpression(
                    context.helper(SSR_RENDER_DYNAMIC_ATTR),
                    args
                  )
                );
              }
            }
          }
        }
      } else {
        if (node.tag === "textarea" && prop.name === "value" && prop.value) {
          rawChildrenMap.set(node, escapeHtml(prop.value.content));
        } else if (!needMergeProps) {
          if (prop.name === "key" || prop.name === "ref") {
            continue;
          }
          if (prop.name === "class" && prop.value) {
            staticClassBinding = JSON.stringify(prop.value.content);
          }
          openTag.push(
            ` ${prop.name}` + (prop.value ? `="${escapeHtml(prop.value.content)}"` : ``)
          );
        }
      }
    }
    if (dynamicClassBinding && staticClassBinding) {
      mergeCall(dynamicClassBinding, staticClassBinding);
      removeStaticBinding(openTag, "class");
    }
    if (context.scopeId) {
      openTag.push(` ${context.scopeId}`);
    }
    node.ssrCodegenNode = createTemplateLiteral(openTag);
  };
};
function buildSSRProps(props, directives, context) {
  let mergePropsArgs = [];
  if (props) {
    if (props.type === 14) {
      mergePropsArgs = props.arguments;
    } else {
      mergePropsArgs.push(props);
    }
  }
  if (directives.length) {
    for (const dir of directives) {
      mergePropsArgs.push(
        createCallExpression(context.helper(SSR_GET_DIRECTIVE_PROPS), [
          `_ctx`,
          ...buildDirectiveArgs(dir, context).elements
        ])
      );
    }
  }
  return mergePropsArgs.length > 1 ? createCallExpression(context.helper(MERGE_PROPS), mergePropsArgs) : mergePropsArgs[0];
}
function isTrueFalseValue(prop) {
  if (prop.type === 7) {
    return prop.name === "bind" && prop.arg && isStaticExp(prop.arg) && (prop.arg.content === "true-value" || prop.arg.content === "false-value");
  } else {
    return prop.name === "true-value" || prop.name === "false-value";
  }
}
function isTextareaWithValue(node, prop) {
  return !!(node.tag === "textarea" && prop.name === "bind" && isStaticArgOf(prop.arg, "value"));
}
function mergeCall(call, arg) {
  const existing = call.arguments[0];
  if (existing.type === 17) {
    existing.elements.push(arg);
  } else {
    call.arguments[0] = createArrayExpression([existing, arg]);
  }
}
function removeStaticBinding(tag, binding) {
  const regExp = new RegExp(`^ ${binding}=".+"$`);
  const i = tag.findIndex((e) => typeof e === "string" && regExp.test(e));
  if (i > -1) {
    tag.splice(i, 1);
  }
}
function findVModel(node) {
  return node.props.find(
    (p) => p.type === 7 && p.name === "model" && p.exp
  );
}
function ssrProcessElement(node, context) {
  const isVoidTag = context.options.isVoidTag || NO;
  const elementsToAdd = node.ssrCodegenNode.elements;
  for (let j = 0; j < elementsToAdd.length; j++) {
    context.pushStringPart(elementsToAdd[j]);
  }
  if (context.withSlotScopeId) {
    context.pushStringPart(createSimpleExpression(`_scopeId`, false));
  }
  context.pushStringPart(`>`);
  const rawChildren = rawChildrenMap.get(node);
  if (rawChildren) {
    context.pushStringPart(rawChildren);
  } else if (node.children.length) {
    processChildren(node, context);
  }
  if (!isVoidTag(node.tag)) {
    context.pushStringPart(`</${node.tag}>`);
  }
}

const wipMap$1 = /* @__PURE__ */ new WeakMap();
function ssrTransformTransitionGroup(node, context) {
  return () => {
    const tag = findProp(node, "tag");
    if (tag) {
      const otherProps = node.props.filter((p) => p !== tag);
      const { props, directives } = buildProps(
        node,
        context,
        otherProps,
        true,
        false,
        true
        /* ssr (skip event listeners) */
      );
      let propsExp = null;
      if (props || directives.length) {
        propsExp = createCallExpression(context.helper(SSR_RENDER_ATTRS), [
          buildSSRProps(props, directives, context)
        ]);
      }
      wipMap$1.set(node, {
        tag,
        propsExp
      });
    }
  };
}
function ssrProcessTransitionGroup(node, context) {
  const entry = wipMap$1.get(node);
  if (entry) {
    const { tag, propsExp } = entry;
    if (tag.type === 7) {
      context.pushStringPart(`<`);
      context.pushStringPart(tag.exp);
      if (propsExp) {
        context.pushStringPart(propsExp);
      }
      context.pushStringPart(`>`);
      processChildren(
        node,
        context,
        false,
        /**
         * TransitionGroup has the special runtime behavior of flattening and
         * concatenating all children into a single fragment (in order for them to
         * be patched using the same key map) so we need to account for that here
         * by disabling nested fragment wrappers from being generated.
         */
        true
      );
      context.pushStringPart(`</`);
      context.pushStringPart(tag.exp);
      context.pushStringPart(`>`);
    } else {
      context.pushStringPart(`<${tag.value.content}`);
      if (propsExp) {
        context.pushStringPart(propsExp);
      }
      context.pushStringPart(`>`);
      processChildren(node, context, false, true);
      context.pushStringPart(`</${tag.value.content}>`);
    }
  } else {
    processChildren(node, context, true, true);
  }
}

var __defProp$8 = Object.defineProperty;
var __defProps$8 = Object.defineProperties;
var __getOwnPropDescs$8 = Object.getOwnPropertyDescriptors;
var __getOwnPropSymbols$8 = Object.getOwnPropertySymbols;
var __hasOwnProp$8 = Object.prototype.hasOwnProperty;
var __propIsEnum$8 = Object.prototype.propertyIsEnumerable;
var __defNormalProp$8 = (obj, key, value) => key in obj ? __defProp$8(obj, key, { enumerable: true, configurable: true, writable: true, value }) : obj[key] = value;
var __spreadValues$8 = (a, b) => {
  for (var prop in b || (b = {}))
    if (__hasOwnProp$8.call(b, prop))
      __defNormalProp$8(a, prop, b[prop]);
  if (__getOwnPropSymbols$8)
    for (var prop of __getOwnPropSymbols$8(b)) {
      if (__propIsEnum$8.call(b, prop))
        __defNormalProp$8(a, prop, b[prop]);
    }
  return a;
};
var __spreadProps$8 = (a, b) => __defProps$8(a, __getOwnPropDescs$8(b));
const wipMap = /* @__PURE__ */ new WeakMap();
const WIP_SLOT = Symbol();
const componentTypeMap = /* @__PURE__ */ new WeakMap();
const ssrTransformComponent = (node, context) => {
  if (node.type !== 1 || node.tagType !== 1) {
    return;
  }
  const component = resolveComponentType(
    node,
    context,
    true
    /* ssr */
  );
  const isDynamicComponent = isObject$2(component) && component.callee === RESOLVE_DYNAMIC_COMPONENT;
  componentTypeMap.set(node, component);
  if (isSymbol$1(component)) {
    if (component === SUSPENSE) {
      return ssrTransformSuspense(node, context);
    }
    if (component === TRANSITION_GROUP) {
      return ssrTransformTransitionGroup(node, context);
    }
    return;
  }
  const vnodeBranches = [];
  const clonedNode = clone(node);
  return function ssrPostTransformComponent() {
    if (clonedNode.children.length) {
      buildSlots(clonedNode, context, (props, children) => {
        vnodeBranches.push(createVNodeSlotBranch(props, children, context));
        return createFunctionExpression(void 0);
      });
    }
    let propsExp = `null`;
    if (node.props.length) {
      const { props, directives } = buildProps(
        node,
        context,
        void 0,
        true,
        isDynamicComponent
      );
      if (props || directives.length) {
        propsExp = buildSSRProps(props, directives, context);
      }
    }
    const wipEntries = [];
    wipMap.set(node, wipEntries);
    const buildSSRSlotFn = (props, children, loc) => {
      const param0 = props && stringifyExpression(props) || `_`;
      const fn = createFunctionExpression(
        [param0, `_push`, `_parent`, `_scopeId`],
        void 0,
        // no return, assign body later
        true,
        // newline
        true,
        // isSlot
        loc
      );
      wipEntries.push({
        type: WIP_SLOT,
        fn,
        children,
        // also collect the corresponding vnode branch built earlier
        vnodeBranch: vnodeBranches[wipEntries.length]
      });
      return fn;
    };
    const slots = node.children.length ? buildSlots(node, context, buildSSRSlotFn).slots : `null`;
    if (typeof component !== "string") {
      node.ssrCodegenNode = createCallExpression(
        context.helper(SSR_RENDER_VNODE),
        [
          `_push`,
          createCallExpression(context.helper(CREATE_VNODE), [
            component,
            propsExp,
            slots
          ]),
          `_parent`
        ]
      );
    } else {
      node.ssrCodegenNode = createCallExpression(
        context.helper(SSR_RENDER_COMPONENT),
        [component, propsExp, slots, `_parent`]
      );
    }
  };
};
function ssrProcessComponent(node, context, parent) {
  const component = componentTypeMap.get(node);
  if (!node.ssrCodegenNode) {
    if (component === TELEPORT) {
      return ssrProcessTeleport(node, context);
    } else if (component === SUSPENSE) {
      return ssrProcessSuspense(node, context);
    } else if (component === TRANSITION_GROUP) {
      return ssrProcessTransitionGroup(node, context);
    } else {
      if (parent.type === WIP_SLOT) {
        context.pushStringPart(``);
      }
      if (component === TRANSITION) {
        node.children = node.children.filter((c) => c.type !== 3);
      }
      processChildren(node, context);
    }
  } else {
    const wipEntries = wipMap.get(node) || [];
    for (let i = 0; i < wipEntries.length; i++) {
      const { fn, vnodeBranch } = wipEntries[i];
      fn.body = createIfStatement(
        createSimpleExpression(`_push`, false),
        processChildrenAsStatement(
          wipEntries[i],
          context,
          false,
          true
          /* withSlotScopeId */
        ),
        vnodeBranch
      );
    }
    if (context.withSlotScopeId) {
      node.ssrCodegenNode.arguments.push(`_scopeId`);
    }
    if (typeof component === "string") {
      context.pushStatement(
        createCallExpression(`_push`, [node.ssrCodegenNode])
      );
    } else {
      context.pushStatement(node.ssrCodegenNode);
    }
  }
}
const rawOptionsMap = /* @__PURE__ */ new WeakMap();
const [baseNodeTransforms, baseDirectiveTransforms] = getBaseTransformPreset(true);
const vnodeNodeTransforms = [...baseNodeTransforms, ...DOMNodeTransforms];
const vnodeDirectiveTransforms = __spreadValues$8(__spreadValues$8({}, baseDirectiveTransforms), DOMDirectiveTransforms);
function createVNodeSlotBranch(props, children, parentContext) {
  const rawOptions = rawOptionsMap.get(parentContext.root);
  const subOptions = __spreadProps$8(__spreadValues$8({}, rawOptions), {
    // overwrite with vnode-based transforms
    nodeTransforms: [
      ...vnodeNodeTransforms,
      ...rawOptions.nodeTransforms || []
    ],
    directiveTransforms: __spreadValues$8(__spreadValues$8({}, vnodeDirectiveTransforms), rawOptions.directiveTransforms || {})
  });
  const wrapperNode = {
    type: 1,
    ns: 0,
    tag: "template",
    tagType: 3,
    isSelfClosing: false,
    // important: provide v-slot="props" on the wrapper for proper
    // scope analysis
    props: [
      {
        type: 7,
        name: "slot",
        exp: props,
        arg: void 0,
        modifiers: [],
        loc: locStub
      }
    ],
    children,
    loc: locStub,
    codegenNode: void 0
  };
  subTransform(wrapperNode, subOptions, parentContext);
  return createReturnStatement(children);
}
function subTransform(node, options, parentContext) {
  const childRoot = createRoot([node]);
  const childContext = createTransformContext(childRoot, options);
  childContext.ssr = false;
  childContext.scopes = __spreadValues$8({}, parentContext.scopes);
  childContext.identifiers = __spreadValues$8({}, parentContext.identifiers);
  childContext.imports = parentContext.imports;
  traverseNode(childRoot, childContext);
  ["helpers", "components", "directives"].forEach((key) => {
    childContext[key].forEach((value, helperKey) => {
      if (key === "helpers") {
        const parentCount = parentContext.helpers.get(helperKey);
        if (parentCount === void 0) {
          parentContext.helpers.set(helperKey, value);
        } else {
          parentContext.helpers.set(helperKey, value + parentCount);
        }
      } else {
        parentContext[key].add(value);
      }
    });
  });
}
function clone(v) {
  if (isArray$3(v)) {
    return v.map(clone);
  } else if (isObject$2(v)) {
    const res = {};
    for (const key in v) {
      res[key] = clone(v[key]);
    }
    return res;
  } else {
    return v;
  }
}

function ssrCodegenTransform(ast, options) {
  const context = createSSRTransformContext(ast, options);
  if (options.ssrCssVars) {
    const cssContext = createTransformContext(createRoot([]), options);
    const varsExp = processExpression(
      createSimpleExpression(options.ssrCssVars, false),
      cssContext
    );
    context.body.push(
      createCompoundExpression([`const _cssVars = { style: `, varsExp, `}`])
    );
    Array.from(cssContext.helpers.keys()).forEach((helper) => {
      ast.helpers.add(helper);
    });
  }
  const isFragment = ast.children.length > 1 && ast.children.some((c) => !isText$1(c));
  processChildren(ast, context, isFragment);
  ast.codegenNode = createBlockStatement(context.body);
  ast.ssrHelpers = Array.from(
    /* @__PURE__ */ new Set([
      ...Array.from(ast.helpers).filter((h) => h in ssrHelpers),
      ...context.helpers
    ])
  );
  ast.helpers = new Set(Array.from(ast.helpers).filter((h) => !(h in ssrHelpers)));
}
function createSSRTransformContext(root, options, helpers = /* @__PURE__ */ new Set(), withSlotScopeId = false) {
  const body = [];
  let currentString = null;
  return {
    root,
    options,
    body,
    helpers,
    withSlotScopeId,
    onError: options.onError || ((e) => {
      throw e;
    }),
    helper(name) {
      helpers.add(name);
      return name;
    },
    pushStringPart(part) {
      if (!currentString) {
        const currentCall = createCallExpression(`_push`);
        body.push(currentCall);
        currentString = createTemplateLiteral([]);
        currentCall.arguments.push(currentString);
      }
      const bufferedElements = currentString.elements;
      const lastItem = bufferedElements[bufferedElements.length - 1];
      if (isString$2(part) && isString$2(lastItem)) {
        bufferedElements[bufferedElements.length - 1] += part;
      } else {
        bufferedElements.push(part);
      }
    },
    pushStatement(statement) {
      currentString = null;
      body.push(statement);
    }
  };
}
function createChildContext(parent, withSlotScopeId = parent.withSlotScopeId) {
  return createSSRTransformContext(
    parent.root,
    parent.options,
    parent.helpers,
    withSlotScopeId
  );
}
function processChildren(parent, context, asFragment = false, disableNestedFragments = false) {
  if (asFragment) {
    context.pushStringPart(`<!--[-->`);
  }
  const { children } = parent;
  for (let i = 0; i < children.length; i++) {
    const child = children[i];
    switch (child.type) {
      case 1:
        switch (child.tagType) {
          case 0:
            ssrProcessElement(child, context);
            break;
          case 1:
            ssrProcessComponent(child, context, parent);
            break;
          case 2:
            ssrProcessSlotOutlet(child, context);
            break;
          case 3:
            break;
          default:
            context.onError(
              createSSRCompilerError(
                67,
                child.loc
              )
            );
            const exhaustiveCheck2 = child;
            return exhaustiveCheck2;
        }
        break;
      case 2:
        context.pushStringPart(escapeHtml(child.content));
        break;
      case 3:
        context.pushStringPart(`<!--${child.content}-->`);
        break;
      case 5:
        context.pushStringPart(
          createCallExpression(context.helper(SSR_INTERPOLATE), [child.content])
        );
        break;
      case 9:
        ssrProcessIf(child, context, disableNestedFragments);
        break;
      case 11:
        ssrProcessFor(child, context, disableNestedFragments);
        break;
      case 10:
        break;
      case 12:
      case 8:
        break;
      default:
        context.onError(
          createSSRCompilerError(
            67,
            child.loc
          )
        );
        const exhaustiveCheck = child;
        return exhaustiveCheck;
    }
  }
  if (asFragment) {
    context.pushStringPart(`<!--]-->`);
  }
}
function processChildrenAsStatement(parent, parentContext, asFragment = false, withSlotScopeId = parentContext.withSlotScopeId) {
  const childContext = createChildContext(parentContext, withSlotScopeId);
  processChildren(parent, childContext, asFragment);
  return createBlockStatement(childContext.body);
}

const ssrTransformModel = (dir, node, context) => {
  const model = dir.exp;
  function checkDuplicatedValue() {
    const value = findProp(node, "value");
    if (value) {
      context.onError(
        createDOMCompilerError(
          60,
          value.loc
        )
      );
    }
  }
  if (node.tagType === 0) {
    const res = { props: [] };
    const defaultProps = [
      // default value binding for text type inputs
      createObjectProperty(`value`, model)
    ];
    if (node.tag === "input") {
      const type = findProp(node, "type");
      if (type) {
        const value = findValueBinding(node);
        if (type.type === 7) {
          res.ssrTagParts = [
            createCallExpression(context.helper(SSR_RENDER_DYNAMIC_MODEL), [
              type.exp,
              model,
              value
            ])
          ];
        } else if (type.value) {
          switch (type.value.content) {
            case "radio":
              res.props = [
                createObjectProperty(
                  `checked`,
                  createCallExpression(context.helper(SSR_LOOSE_EQUAL), [
                    model,
                    value
                  ])
                )
              ];
              break;
            case "checkbox":
              const trueValueBinding = findProp(node, "true-value");
              if (trueValueBinding) {
                const trueValue = trueValueBinding.type === 6 ? JSON.stringify(trueValueBinding.value.content) : trueValueBinding.exp;
                res.props = [
                  createObjectProperty(
                    `checked`,
                    createCallExpression(context.helper(SSR_LOOSE_EQUAL), [
                      model,
                      trueValue
                    ])
                  )
                ];
              } else {
                res.props = [
                  createObjectProperty(
                    `checked`,
                    createConditionalExpression(
                      createCallExpression(`Array.isArray`, [model]),
                      createCallExpression(context.helper(SSR_LOOSE_CONTAIN), [
                        model,
                        value
                      ]),
                      model
                    )
                  )
                ];
              }
              break;
            case "file":
              context.onError(
                createDOMCompilerError(
                  59,
                  dir.loc
                )
              );
              break;
            default:
              checkDuplicatedValue();
              res.props = defaultProps;
              break;
          }
        }
      } else if (hasDynamicKeyVBind(node)) ; else {
        checkDuplicatedValue();
        res.props = defaultProps;
      }
    } else if (node.tag === "textarea") {
      checkDuplicatedValue();
      node.children = [createInterpolation(model, model.loc)];
    } else if (node.tag === "select") ; else {
      context.onError(
        createDOMCompilerError(
          57,
          dir.loc
        )
      );
    }
    return res;
  } else {
    return transformModel$1(dir, node, context);
  }
};
function findValueBinding(node) {
  const valueBinding = findProp(node, "value");
  return valueBinding ? valueBinding.type === 7 ? valueBinding.exp : createSimpleExpression(valueBinding.value.content, true) : createSimpleExpression(`null`, false);
}

const ssrTransformShow = (dir, node, context) => {
  if (!dir.exp) {
    context.onError(
      createDOMCompilerError(61)
    );
  }
  return {
    props: [
      createObjectProperty(
        `style`,
        createConditionalExpression(
          dir.exp,
          createSimpleExpression(`null`, false),
          createObjectExpression([
            createObjectProperty(
              `display`,
              createSimpleExpression(`none`, true)
            )
          ]),
          false
          /* no newline */
        )
      )
    ]
  };
};

const filterChild = (node) => node.children.filter((n) => n.type !== 3);
const hasSingleChild = (node) => filterChild(node).length === 1;
const ssrInjectFallthroughAttrs = (node, context) => {
  if (node.type === 0) {
    context.identifiers._attrs = 1;
  }
  if (node.type === 1 && node.tagType === 1 && (isBuiltInType(node.tag, "Transition") || isBuiltInType(node.tag, "KeepAlive"))) {
    const rootChildren = filterChild(context.root);
    if (rootChildren.length === 1 && rootChildren[0] === node) {
      if (hasSingleChild(node)) {
        injectFallthroughAttrs(node.children[0]);
      }
      return;
    }
  }
  const parent = context.parent;
  if (!parent || parent.type !== 0) {
    return;
  }
  if (node.type === 10 && hasSingleChild(node)) {
    let hasEncounteredIf = false;
    for (const c of filterChild(parent)) {
      if (c.type === 9 || c.type === 1 && findDir(c, "if")) {
        if (hasEncounteredIf)
          return;
        hasEncounteredIf = true;
      } else if (
        // node before v-if
        !hasEncounteredIf || // non else nodes
        !(c.type === 1 && findDir(c, /else/, true))
      ) {
        return;
      }
    }
    injectFallthroughAttrs(node.children[0]);
  } else if (hasSingleChild(parent)) {
    injectFallthroughAttrs(node);
  }
};
function injectFallthroughAttrs(node) {
  if (node.type === 1 && (node.tagType === 0 || node.tagType === 1) && !findDir(node, "for")) {
    node.props.push({
      type: 7,
      name: "bind",
      arg: void 0,
      exp: createSimpleExpression(`_attrs`, false),
      modifiers: [],
      loc: locStub
    });
  }
}

const ssrInjectCssVars = (node, context) => {
  if (!context.ssrCssVars) {
    return;
  }
  if (node.type === 0) {
    context.identifiers._cssVars = 1;
  }
  const parent = context.parent;
  if (!parent || parent.type !== 0) {
    return;
  }
  if (node.type === 10) {
    for (const child of node.children) {
      injectCssVars(child);
    }
  } else {
    injectCssVars(node);
  }
};
function injectCssVars(node) {
  if (node.type === 1 && (node.tagType === 0 || node.tagType === 1) && !findDir(node, "for")) {
    if (isBuiltInType(node.tag, "Suspense")) {
      for (const child of node.children) {
        if (child.type === 1 && child.tagType === 3) {
          child.children.forEach(injectCssVars);
        } else {
          injectCssVars(child);
        }
      }
    } else {
      node.props.push({
        type: 7,
        name: "bind",
        arg: void 0,
        exp: createSimpleExpression(`_cssVars`, false),
        modifiers: [],
        loc: locStub
      });
    }
  }
}

var __defProp$7 = Object.defineProperty;
var __defProps$7 = Object.defineProperties;
var __getOwnPropDescs$7 = Object.getOwnPropertyDescriptors;
var __getOwnPropSymbols$7 = Object.getOwnPropertySymbols;
var __hasOwnProp$7 = Object.prototype.hasOwnProperty;
var __propIsEnum$7 = Object.prototype.propertyIsEnumerable;
var __defNormalProp$7 = (obj, key, value) => key in obj ? __defProp$7(obj, key, { enumerable: true, configurable: true, writable: true, value }) : obj[key] = value;
var __spreadValues$7 = (a, b) => {
  for (var prop in b || (b = {}))
    if (__hasOwnProp$7.call(b, prop))
      __defNormalProp$7(a, prop, b[prop]);
  if (__getOwnPropSymbols$7)
    for (var prop of __getOwnPropSymbols$7(b)) {
      if (__propIsEnum$7.call(b, prop))
        __defNormalProp$7(a, prop, b[prop]);
    }
  return a;
};
var __spreadProps$7 = (a, b) => __defProps$7(a, __getOwnPropDescs$7(b));
function compile(template, options = {}) {
  options = __spreadProps$7(__spreadValues$7(__spreadValues$7({}, options), parserOptions), {
    ssr: true,
    inSSR: true,
    scopeId: options.mode === "function" ? null : options.scopeId,
    // always prefix since compiler-ssr doesn't have size concern
    prefixIdentifiers: true,
    // disable optimizations that are unnecessary for ssr
    cacheHandlers: false,
    hoistStatic: false
  });
  const ast = baseParse(template, options);
  rawOptionsMap.set(ast, options);
  transform$1(ast, __spreadProps$7(__spreadValues$7({}, options), {
    hoistStatic: false,
    nodeTransforms: [
      ssrTransformIf,
      ssrTransformFor,
      trackVForSlotScopes,
      transformExpression,
      ssrTransformSlotOutlet,
      ssrInjectFallthroughAttrs,
      ssrInjectCssVars,
      ssrTransformElement,
      ssrTransformComponent,
      trackSlotScopes,
      transformStyle,
      ...options.nodeTransforms || []
      // user transforms
    ],
    directiveTransforms: __spreadValues$7({
      // reusing core v-bind
      bind: transformBind,
      on: transformOn$1,
      // model and show has dedicated SSR handling
      model: ssrTransformModel,
      show: ssrTransformShow,
      // the following are ignored during SSR
      // on: noopDirectiveTransform,
      cloak: noopDirectiveTransform,
      once: noopDirectiveTransform,
      memo: noopDirectiveTransform
    }, options.directiveTransforms || {})
  }));
  ssrCodegenTransform(ast, options);
  return generate(ast, options);
}

var CompilerSSR = /*#__PURE__*/Object.freeze({
  __proto__: null,
  compile: compile
});

var _polyfillNode_fs = {};

var _polyfillNode_fs$1 = /*#__PURE__*/Object.freeze({
  __proto__: null,
  default: _polyfillNode_fs
});

var require$$0$2 = /*@__PURE__*/getAugmentedNamespace(_polyfillNode_fs$1);

var require$$2$1 = /*@__PURE__*/getAugmentedNamespace(_polyfillNode_path);

var require$$0$1 = /*@__PURE__*/getAugmentedNamespace(_polyfillNode_util$1);

const hasWarned$1 = {};
function warnOnce$4(msg) {
  const isNodeProd = typeof process !== "undefined" && process.env.NODE_ENV === "production";
  if (!isNodeProd && true && !hasWarned$1[msg]) {
    hasWarned$1[msg] = true;
    warn$1(msg);
  }
}
function warn$1(msg) {
  console.warn(
    `\x1B[1m\x1B[33m[@vue/compiler-sfc]\x1B[0m\x1B[33m ${msg}\x1B[0m
`
  );
}

var __defProp$6 = Object.defineProperty;
var __defProps$6 = Object.defineProperties;
var __getOwnPropDescs$6 = Object.getOwnPropertyDescriptors;
var __getOwnPropSymbols$6 = Object.getOwnPropertySymbols;
var __hasOwnProp$6 = Object.prototype.hasOwnProperty;
var __propIsEnum$6 = Object.prototype.propertyIsEnumerable;
var __defNormalProp$6 = (obj, key, value) => key in obj ? __defProp$6(obj, key, { enumerable: true, configurable: true, writable: true, value }) : obj[key] = value;
var __spreadValues$6 = (a, b) => {
  for (var prop in b || (b = {}))
    if (__hasOwnProp$6.call(b, prop))
      __defNormalProp$6(a, prop, b[prop]);
  if (__getOwnPropSymbols$6)
    for (var prop of __getOwnPropSymbols$6(b)) {
      if (__propIsEnum$6.call(b, prop))
        __defNormalProp$6(a, prop, b[prop]);
    }
  return a;
};
var __spreadProps$6 = (a, b) => __defProps$6(a, __getOwnPropDescs$6(b));
function preprocess$1({ source, filename, preprocessOptions }, preprocessor) {
  let res = "";
  let err = null;
  preprocessor.render(
    source,
    __spreadValues$6({ filename }, preprocessOptions),
    (_err, _res) => {
      if (_err)
        err = _err;
      res = _res;
    }
  );
  if (err)
    throw err;
  return res;
}
function compileTemplate(options) {
  const { preprocessLang, preprocessCustomRequire } = options;
  if (preprocessLang && !preprocessCustomRequire) {
    throw new Error(
      `[@vue/compiler-sfc] Template preprocessing in the browser build must provide the \`preprocessCustomRequire\` option to return the in-browser version of the preprocessor in the shape of { render(): string }.`
    );
  }
  const preprocessor = preprocessLang ? preprocessCustomRequire ? preprocessCustomRequire(preprocessLang) : void 0  : false;
  if (preprocessor) {
    try {
      return doCompileTemplate(__spreadProps$6(__spreadValues$6({}, options), {
        source: preprocess$1(options, preprocessor)
      }));
    } catch (e) {
      return {
        code: `export default function render() {}`,
        source: options.source,
        tips: [],
        errors: [e]
      };
    }
  } else if (preprocessLang) {
    return {
      code: `export default function render() {}`,
      source: options.source,
      tips: [
        `Component ${options.filename} uses lang ${preprocessLang} for template. Please install the language preprocessor.`
      ],
      errors: [
        `Component ${options.filename} uses lang ${preprocessLang} for template, however it is not installed.`
      ]
    };
  } else {
    return doCompileTemplate(options);
  }
}
function doCompileTemplate({
  filename,
  id,
  scoped,
  slotted,
  inMap,
  source,
  ssr = false,
  ssrCssVars,
  isProd = false,
  compiler = ssr ? CompilerSSR : CompilerDOM,
  compilerOptions = {},
  transformAssetUrls
}) {
  const errors = [];
  const warnings = [];
  let nodeTransforms = [];
  if (isObject$2(transformAssetUrls)) {
    const assetOptions = normalizeOptions(transformAssetUrls);
    nodeTransforms = [
      createAssetUrlTransformWithOptions(assetOptions),
      createSrcsetTransformWithOptions(assetOptions)
    ];
  } else if (transformAssetUrls !== false) {
    nodeTransforms = [transformAssetUrl, transformSrcset];
  }
  if (ssr && !ssrCssVars) {
    warnOnce$4(
      `compileTemplate is called with \`ssr: true\` but no corresponding \`cssVars\` option.\`.`
    );
  }
  if (!id) {
    warnOnce$4(`compileTemplate now requires the \`id\` option.\`.`);
    id = "";
  }
  const shortId = id.replace(/^data-v-/, "");
  const longId = `data-v-${shortId}`;
  let { code, ast, preamble, map } = compiler.compile(source, __spreadProps$6(__spreadValues$6({
    mode: "module",
    prefixIdentifiers: true,
    hoistStatic: true,
    cacheHandlers: true,
    ssrCssVars: ssr && ssrCssVars && ssrCssVars.length ? genCssVarsFromList(ssrCssVars, shortId, isProd, true) : "",
    scopeId: scoped ? longId : void 0,
    slotted,
    sourceMap: true
  }, compilerOptions), {
    nodeTransforms: nodeTransforms.concat(compilerOptions.nodeTransforms || []),
    filename,
    onError: (e) => errors.push(e),
    onWarn: (w) => warnings.push(w)
  }));
  if (inMap) {
    if (map) {
      map = mapLines(inMap, map);
    }
    if (errors.length) {
      patchErrors(errors, source, inMap);
    }
  }
  const tips = warnings.map((w) => {
    let msg = w.message;
    if (w.loc) {
      msg += `
${generateCodeFrame(
        source,
        w.loc.start.offset,
        w.loc.end.offset
      )}`;
    }
    return msg;
  });
  return { code, ast, preamble, source, errors, tips, map };
}
function mapLines(oldMap, newMap) {
  if (!oldMap)
    return newMap;
  if (!newMap)
    return oldMap;
  const oldMapConsumer = new SourceMapConsumer$5(oldMap);
  const newMapConsumer = new SourceMapConsumer$5(newMap);
  const mergedMapGenerator = new SourceMapGenerator$6();
  newMapConsumer.eachMapping((m) => {
    if (m.originalLine == null) {
      return;
    }
    const origPosInOldMap = oldMapConsumer.originalPositionFor({
      line: m.originalLine,
      column: m.originalColumn
    });
    if (origPosInOldMap.source == null) {
      return;
    }
    mergedMapGenerator.addMapping({
      generated: {
        line: m.generatedLine,
        column: m.generatedColumn
      },
      original: {
        line: origPosInOldMap.line,
        // map line
        // use current column, since the oldMap produced by @vue/compiler-sfc
        // does not
        column: m.originalColumn
      },
      source: origPosInOldMap.source,
      name: origPosInOldMap.name
    });
  });
  const generator = mergedMapGenerator;
  oldMapConsumer.sources.forEach((sourceFile) => {
    generator._sources.add(sourceFile);
    const sourceContent = oldMapConsumer.sourceContentFor(sourceFile);
    if (sourceContent != null) {
      mergedMapGenerator.setSourceContent(sourceFile, sourceContent);
    }
  });
  generator._sourceRoot = oldMap.sourceRoot;
  generator._file = oldMap.file;
  return generator.toJSON();
}
function patchErrors(errors, source, inMap) {
  const originalSource = inMap.sourcesContent[0];
  const offset = originalSource.indexOf(source);
  const lineOffset = originalSource.slice(0, offset).split(/\r?\n/).length - 1;
  errors.forEach((err) => {
    if (err.loc) {
      err.loc.start.line += lineOffset;
      err.loc.start.offset += offset;
      if (err.loc.end !== err.loc.start) {
        err.loc.end.line += lineOffset;
        err.loc.end.offset += offset;
      }
    }
  });
}

var picocolorsExports = {};
var picocolors = {
  get exports(){ return picocolorsExports; },
  set exports(v){ picocolorsExports = v; },
};

// MIT lisence
// from https://github.com/substack/tty-browserify/blob/1ba769a6429d242f36226538835b4034bf6b7886/index.js

function isatty() {
  return false;
}

function ReadStream() {
  throw new Error('tty.ReadStream is not implemented');
}

function WriteStream() {
  throw new Error('tty.ReadStream is not implemented');
}

var _polyfillNode_tty = {
  isatty: isatty,
  ReadStream: ReadStream,
  WriteStream: WriteStream
};

var _polyfillNode_tty$1 = /*#__PURE__*/Object.freeze({
  __proto__: null,
  ReadStream: ReadStream,
  WriteStream: WriteStream,
  default: _polyfillNode_tty,
  isatty: isatty
});

var require$$0 = /*@__PURE__*/getAugmentedNamespace(_polyfillNode_tty$1);

let tty = require$$0;

let isColorSupported =
	!("NO_COLOR" in ({}) || browser$1.argv.includes("--no-color")) &&
	("FORCE_COLOR" in ({}) ||
		browser$1.argv.includes("--color") ||
		"" === "win32" ||
		(tty.isatty(1) && browser$1.env.TERM !== "dumb") ||
		"CI" in ({}));

let formatter =
	(open, close, replace = open) =>
	input => {
		let string = "" + input;
		let index = string.indexOf(close, open.length);
		return ~index
			? open + replaceClose(string, close, replace, index) + close
			: open + string + close
	};

let replaceClose = (string, close, replace, index) => {
	let start = string.substring(0, index) + replace;
	let end = string.substring(index + close.length);
	let nextIndex = end.indexOf(close);
	return ~nextIndex ? start + replaceClose(end, close, replace, nextIndex) : start + end
};

let createColors = (enabled = isColorSupported) => ({
	isColorSupported: enabled,
	reset: enabled ? s => `\x1b[0m${s}\x1b[0m` : String,
	bold: enabled ? formatter("\x1b[1m", "\x1b[22m", "\x1b[22m\x1b[1m") : String,
	dim: enabled ? formatter("\x1b[2m", "\x1b[22m", "\x1b[22m\x1b[2m") : String,
	italic: enabled ? formatter("\x1b[3m", "\x1b[23m") : String,
	underline: enabled ? formatter("\x1b[4m", "\x1b[24m") : String,
	inverse: enabled ? formatter("\x1b[7m", "\x1b[27m") : String,
	hidden: enabled ? formatter("\x1b[8m", "\x1b[28m") : String,
	strikethrough: enabled ? formatter("\x1b[9m", "\x1b[29m") : String,
	black: enabled ? formatter("\x1b[30m", "\x1b[39m") : String,
	red: enabled ? formatter("\x1b[31m", "\x1b[39m") : String,
	green: enabled ? formatter("\x1b[32m", "\x1b[39m") : String,
	yellow: enabled ? formatter("\x1b[33m", "\x1b[39m") : String,
	blue: enabled ? formatter("\x1b[34m", "\x1b[39m") : String,
	magenta: enabled ? formatter("\x1b[35m", "\x1b[39m") : String,
	cyan: enabled ? formatter("\x1b[36m", "\x1b[39m") : String,
	white: enabled ? formatter("\x1b[37m", "\x1b[39m") : String,
	gray: enabled ? formatter("\x1b[90m", "\x1b[39m") : String,
	bgBlack: enabled ? formatter("\x1b[40m", "\x1b[49m") : String,
	bgRed: enabled ? formatter("\x1b[41m", "\x1b[49m") : String,
	bgGreen: enabled ? formatter("\x1b[42m", "\x1b[49m") : String,
	bgYellow: enabled ? formatter("\x1b[43m", "\x1b[49m") : String,
	bgBlue: enabled ? formatter("\x1b[44m", "\x1b[49m") : String,
	bgMagenta: enabled ? formatter("\x1b[45m", "\x1b[49m") : String,
	bgCyan: enabled ? formatter("\x1b[46m", "\x1b[49m") : String,
	bgWhite: enabled ? formatter("\x1b[47m", "\x1b[49m") : String,
});

picocolors.exports = createColors();
picocolorsExports.createColors = createColors;

const SINGLE_QUOTE = "'".charCodeAt(0);
const DOUBLE_QUOTE = '"'.charCodeAt(0);
const BACKSLASH = '\\'.charCodeAt(0);
const SLASH = '/'.charCodeAt(0);
const NEWLINE = '\n'.charCodeAt(0);
const SPACE = ' '.charCodeAt(0);
const FEED = '\f'.charCodeAt(0);
const TAB = '\t'.charCodeAt(0);
const CR = '\r'.charCodeAt(0);
const OPEN_SQUARE = '['.charCodeAt(0);
const CLOSE_SQUARE = ']'.charCodeAt(0);
const OPEN_PARENTHESES = '('.charCodeAt(0);
const CLOSE_PARENTHESES = ')'.charCodeAt(0);
const OPEN_CURLY = '{'.charCodeAt(0);
const CLOSE_CURLY = '}'.charCodeAt(0);
const SEMICOLON = ';'.charCodeAt(0);
const ASTERISK = '*'.charCodeAt(0);
const COLON = ':'.charCodeAt(0);
const AT = '@'.charCodeAt(0);

const RE_AT_END = /[\t\n\f\r "#'()/;[\\\]{}]/g;
const RE_WORD_END = /[\t\n\f\r !"#'():;@[\\\]{}]|\/(?=\*)/g;
const RE_BAD_BRACKET = /.[\n"'(/\\]/;
const RE_HEX_ESCAPE = /[\da-f]/i;

var tokenize$1 = function tokenizer(input, options = {}) {
  let css = input.css.valueOf();
  let ignore = options.ignoreErrors;

  let code, next, quote, content, escape;
  let escaped, escapePos, prev, n, currentToken;

  let length = css.length;
  let pos = 0;
  let buffer = [];
  let returned = [];

  function position() {
    return pos
  }

  function unclosed(what) {
    throw input.error('Unclosed ' + what, pos)
  }

  function endOfFile() {
    return returned.length === 0 && pos >= length
  }

  function nextToken(opts) {
    if (returned.length) return returned.pop()
    if (pos >= length) return

    let ignoreUnclosed = opts ? opts.ignoreUnclosed : false;

    code = css.charCodeAt(pos);

    switch (code) {
      case NEWLINE:
      case SPACE:
      case TAB:
      case CR:
      case FEED: {
        next = pos;
        do {
          next += 1;
          code = css.charCodeAt(next);
        } while (
          code === SPACE ||
          code === NEWLINE ||
          code === TAB ||
          code === CR ||
          code === FEED
        )

        currentToken = ['space', css.slice(pos, next)];
        pos = next - 1;
        break
      }

      case OPEN_SQUARE:
      case CLOSE_SQUARE:
      case OPEN_CURLY:
      case CLOSE_CURLY:
      case COLON:
      case SEMICOLON:
      case CLOSE_PARENTHESES: {
        let controlChar = String.fromCharCode(code);
        currentToken = [controlChar, controlChar, pos];
        break
      }

      case OPEN_PARENTHESES: {
        prev = buffer.length ? buffer.pop()[1] : '';
        n = css.charCodeAt(pos + 1);
        if (
          prev === 'url' &&
          n !== SINGLE_QUOTE &&
          n !== DOUBLE_QUOTE &&
          n !== SPACE &&
          n !== NEWLINE &&
          n !== TAB &&
          n !== FEED &&
          n !== CR
        ) {
          next = pos;
          do {
            escaped = false;
            next = css.indexOf(')', next + 1);
            if (next === -1) {
              if (ignore || ignoreUnclosed) {
                next = pos;
                break
              } else {
                unclosed('bracket');
              }
            }
            escapePos = next;
            while (css.charCodeAt(escapePos - 1) === BACKSLASH) {
              escapePos -= 1;
              escaped = !escaped;
            }
          } while (escaped)

          currentToken = ['brackets', css.slice(pos, next + 1), pos, next];

          pos = next;
        } else {
          next = css.indexOf(')', pos + 1);
          content = css.slice(pos, next + 1);

          if (next === -1 || RE_BAD_BRACKET.test(content)) {
            currentToken = ['(', '(', pos];
          } else {
            currentToken = ['brackets', content, pos, next];
            pos = next;
          }
        }

        break
      }

      case SINGLE_QUOTE:
      case DOUBLE_QUOTE: {
        quote = code === SINGLE_QUOTE ? "'" : '"';
        next = pos;
        do {
          escaped = false;
          next = css.indexOf(quote, next + 1);
          if (next === -1) {
            if (ignore || ignoreUnclosed) {
              next = pos + 1;
              break
            } else {
              unclosed('string');
            }
          }
          escapePos = next;
          while (css.charCodeAt(escapePos - 1) === BACKSLASH) {
            escapePos -= 1;
            escaped = !escaped;
          }
        } while (escaped)

        currentToken = ['string', css.slice(pos, next + 1), pos, next];
        pos = next;
        break
      }

      case AT: {
        RE_AT_END.lastIndex = pos + 1;
        RE_AT_END.test(css);
        if (RE_AT_END.lastIndex === 0) {
          next = css.length - 1;
        } else {
          next = RE_AT_END.lastIndex - 2;
        }

        currentToken = ['at-word', css.slice(pos, next + 1), pos, next];

        pos = next;
        break
      }

      case BACKSLASH: {
        next = pos;
        escape = true;
        while (css.charCodeAt(next + 1) === BACKSLASH) {
          next += 1;
          escape = !escape;
        }
        code = css.charCodeAt(next + 1);
        if (
          escape &&
          code !== SLASH &&
          code !== SPACE &&
          code !== NEWLINE &&
          code !== TAB &&
          code !== CR &&
          code !== FEED
        ) {
          next += 1;
          if (RE_HEX_ESCAPE.test(css.charAt(next))) {
            while (RE_HEX_ESCAPE.test(css.charAt(next + 1))) {
              next += 1;
            }
            if (css.charCodeAt(next + 1) === SPACE) {
              next += 1;
            }
          }
        }

        currentToken = ['word', css.slice(pos, next + 1), pos, next];

        pos = next;
        break
      }

      default: {
        if (code === SLASH && css.charCodeAt(pos + 1) === ASTERISK) {
          next = css.indexOf('*/', pos + 2) + 1;
          if (next === 0) {
            if (ignore || ignoreUnclosed) {
              next = css.length;
            } else {
              unclosed('comment');
            }
          }

          currentToken = ['comment', css.slice(pos, next + 1), pos, next];
          pos = next;
        } else {
          RE_WORD_END.lastIndex = pos + 1;
          RE_WORD_END.test(css);
          if (RE_WORD_END.lastIndex === 0) {
            next = css.length - 1;
          } else {
            next = RE_WORD_END.lastIndex - 2;
          }

          currentToken = ['word', css.slice(pos, next + 1), pos, next];
          buffer.push(currentToken);
          pos = next;
        }

        break
      }
    }

    pos++;
    return currentToken
  }

  function back(token) {
    returned.push(token);
  }

  return {
    back,
    nextToken,
    endOfFile,
    position
  }
};

let pico$1 = picocolorsExports;

let tokenizer$1 = tokenize$1;

let Input$5;

function registerInput(dependant) {
  Input$5 = dependant;
}

const HIGHLIGHT_THEME = {
  'brackets': pico$1.cyan,
  'at-word': pico$1.cyan,
  'comment': pico$1.gray,
  'string': pico$1.green,
  'class': pico$1.yellow,
  'hash': pico$1.magenta,
  'call': pico$1.cyan,
  '(': pico$1.cyan,
  ')': pico$1.cyan,
  '{': pico$1.yellow,
  '}': pico$1.yellow,
  '[': pico$1.yellow,
  ']': pico$1.yellow,
  ':': pico$1.yellow,
  ';': pico$1.yellow
};

function getTokenType([type, value], processor) {
  if (type === 'word') {
    if (value[0] === '.') {
      return 'class'
    }
    if (value[0] === '#') {
      return 'hash'
    }
  }

  if (!processor.endOfFile()) {
    let next = processor.nextToken();
    processor.back(next);
    if (next[0] === 'brackets' || next[0] === '(') return 'call'
  }

  return type
}

function terminalHighlight$2(css) {
  let processor = tokenizer$1(new Input$5(css), { ignoreErrors: true });
  let result = '';
  while (!processor.endOfFile()) {
    let token = processor.nextToken();
    let color = HIGHLIGHT_THEME[getTokenType(token, processor)];
    if (color) {
      result += token[1]
        .split(/\r?\n/)
        .map(i => color(i))
        .join('\n');
    } else {
      result += token[1];
    }
  }
  return result
}

terminalHighlight$2.registerInput = registerInput;

var terminalHighlight_1 = terminalHighlight$2;

let pico = picocolorsExports;

let terminalHighlight$1 = terminalHighlight_1;

let CssSyntaxError$3 = class CssSyntaxError extends Error {
  constructor(message, line, column, source, file, plugin) {
    super(message);
    this.name = 'CssSyntaxError';
    this.reason = message;

    if (file) {
      this.file = file;
    }
    if (source) {
      this.source = source;
    }
    if (plugin) {
      this.plugin = plugin;
    }
    if (typeof line !== 'undefined' && typeof column !== 'undefined') {
      if (typeof line === 'number') {
        this.line = line;
        this.column = column;
      } else {
        this.line = line.line;
        this.column = line.column;
        this.endLine = column.line;
        this.endColumn = column.column;
      }
    }

    this.setMessage();

    if (Error.captureStackTrace) {
      Error.captureStackTrace(this, CssSyntaxError);
    }
  }

  setMessage() {
    this.message = this.plugin ? this.plugin + ': ' : '';
    this.message += this.file ? this.file : '<css input>';
    if (typeof this.line !== 'undefined') {
      this.message += ':' + this.line + ':' + this.column;
    }
    this.message += ': ' + this.reason;
  }

  showSourceCode(color) {
    if (!this.source) return ''

    let css = this.source;
    if (color == null) color = pico.isColorSupported;
    if (terminalHighlight$1) {
      if (color) css = terminalHighlight$1(css);
    }

    let lines = css.split(/\r?\n/);
    let start = Math.max(this.line - 3, 0);
    let end = Math.min(this.line + 2, lines.length);

    let maxWidth = String(end).length;

    let mark, aside;
    if (color) {
      let { bold, red, gray } = pico.createColors(true);
      mark = text => bold(red(text));
      aside = text => gray(text);
    } else {
      mark = aside = str => str;
    }

    return lines
      .slice(start, end)
      .map((line, index) => {
        let number = start + 1 + index;
        let gutter = ' ' + (' ' + number).slice(-maxWidth) + ' | ';
        if (number === this.line) {
          let spacing =
            aside(gutter.replace(/\d/g, ' ')) +
            line.slice(0, this.column - 1).replace(/[^\t]/g, ' ');
          return mark('>') + aside(gutter) + line + '\n ' + spacing + mark('^')
        }
        return ' ' + aside(gutter) + line
      })
      .join('\n')
  }

  toString() {
    let code = this.showSourceCode();
    if (code) {
      code = '\n\n' + code + '\n';
    }
    return this.name + ': ' + this.message + code
  }
};

var cssSyntaxError = CssSyntaxError$3;
CssSyntaxError$3.default = CssSyntaxError$3;

var symbols = {};

symbols.isClean = Symbol('isClean');

symbols.my = Symbol('my');

const DEFAULT_RAW = {
  colon: ': ',
  indent: '    ',
  beforeDecl: '\n',
  beforeRule: '\n',
  beforeOpen: ' ',
  beforeClose: '\n',
  beforeComment: '\n',
  after: '\n',
  emptyBody: '',
  commentLeft: ' ',
  commentRight: ' ',
  semicolon: false
};

function capitalize(str) {
  return str[0].toUpperCase() + str.slice(1)
}

let Stringifier$2 = class Stringifier {
  constructor(builder) {
    this.builder = builder;
  }

  stringify(node, semicolon) {
    /* c8 ignore start */
    if (!this[node.type]) {
      throw new Error(
        'Unknown AST node type ' +
          node.type +
          '. ' +
          'Maybe you need to change PostCSS stringifier.'
      )
    }
    /* c8 ignore stop */
    this[node.type](node, semicolon);
  }

  document(node) {
    this.body(node);
  }

  root(node) {
    this.body(node);
    if (node.raws.after) this.builder(node.raws.after);
  }

  comment(node) {
    let left = this.raw(node, 'left', 'commentLeft');
    let right = this.raw(node, 'right', 'commentRight');
    this.builder('/*' + left + node.text + right + '*/', node);
  }

  decl(node, semicolon) {
    let between = this.raw(node, 'between', 'colon');
    let string = node.prop + between + this.rawValue(node, 'value');

    if (node.important) {
      string += node.raws.important || ' !important';
    }

    if (semicolon) string += ';';
    this.builder(string, node);
  }

  rule(node) {
    this.block(node, this.rawValue(node, 'selector'));
    if (node.raws.ownSemicolon) {
      this.builder(node.raws.ownSemicolon, node, 'end');
    }
  }

  atrule(node, semicolon) {
    let name = '@' + node.name;
    let params = node.params ? this.rawValue(node, 'params') : '';

    if (typeof node.raws.afterName !== 'undefined') {
      name += node.raws.afterName;
    } else if (params) {
      name += ' ';
    }

    if (node.nodes) {
      this.block(node, name + params);
    } else {
      let end = (node.raws.between || '') + (semicolon ? ';' : '');
      this.builder(name + params + end, node);
    }
  }

  body(node) {
    let last = node.nodes.length - 1;
    while (last > 0) {
      if (node.nodes[last].type !== 'comment') break
      last -= 1;
    }

    let semicolon = this.raw(node, 'semicolon');
    for (let i = 0; i < node.nodes.length; i++) {
      let child = node.nodes[i];
      let before = this.raw(child, 'before');
      if (before) this.builder(before);
      this.stringify(child, last !== i || semicolon);
    }
  }

  block(node, start) {
    let between = this.raw(node, 'between', 'beforeOpen');
    this.builder(start + between + '{', node, 'start');

    let after;
    if (node.nodes && node.nodes.length) {
      this.body(node);
      after = this.raw(node, 'after');
    } else {
      after = this.raw(node, 'after', 'emptyBody');
    }

    if (after) this.builder(after);
    this.builder('}', node, 'end');
  }

  raw(node, own, detect) {
    let value;
    if (!detect) detect = own;

    // Already had
    if (own) {
      value = node.raws[own];
      if (typeof value !== 'undefined') return value
    }

    let parent = node.parent;

    if (detect === 'before') {
      // Hack for first rule in CSS
      if (!parent || (parent.type === 'root' && parent.first === node)) {
        return ''
      }

      // `root` nodes in `document` should use only their own raws
      if (parent && parent.type === 'document') {
        return ''
      }
    }

    // Floating child without parent
    if (!parent) return DEFAULT_RAW[detect]

    // Detect style by other nodes
    let root = node.root();
    if (!root.rawCache) root.rawCache = {};
    if (typeof root.rawCache[detect] !== 'undefined') {
      return root.rawCache[detect]
    }

    if (detect === 'before' || detect === 'after') {
      return this.beforeAfter(node, detect)
    } else {
      let method = 'raw' + capitalize(detect);
      if (this[method]) {
        value = this[method](root, node);
      } else {
        root.walk(i => {
          value = i.raws[own];
          if (typeof value !== 'undefined') return false
        });
      }
    }

    if (typeof value === 'undefined') value = DEFAULT_RAW[detect];

    root.rawCache[detect] = value;
    return value
  }

  rawSemicolon(root) {
    let value;
    root.walk(i => {
      if (i.nodes && i.nodes.length && i.last.type === 'decl') {
        value = i.raws.semicolon;
        if (typeof value !== 'undefined') return false
      }
    });
    return value
  }

  rawEmptyBody(root) {
    let value;
    root.walk(i => {
      if (i.nodes && i.nodes.length === 0) {
        value = i.raws.after;
        if (typeof value !== 'undefined') return false
      }
    });
    return value
  }

  rawIndent(root) {
    if (root.raws.indent) return root.raws.indent
    let value;
    root.walk(i => {
      let p = i.parent;
      if (p && p !== root && p.parent && p.parent === root) {
        if (typeof i.raws.before !== 'undefined') {
          let parts = i.raws.before.split('\n');
          value = parts[parts.length - 1];
          value = value.replace(/\S/g, '');
          return false
        }
      }
    });
    return value
  }

  rawBeforeComment(root, node) {
    let value;
    root.walkComments(i => {
      if (typeof i.raws.before !== 'undefined') {
        value = i.raws.before;
        if (value.includes('\n')) {
          value = value.replace(/[^\n]+$/, '');
        }
        return false
      }
    });
    if (typeof value === 'undefined') {
      value = this.raw(node, null, 'beforeDecl');
    } else if (value) {
      value = value.replace(/\S/g, '');
    }
    return value
  }

  rawBeforeDecl(root, node) {
    let value;
    root.walkDecls(i => {
      if (typeof i.raws.before !== 'undefined') {
        value = i.raws.before;
        if (value.includes('\n')) {
          value = value.replace(/[^\n]+$/, '');
        }
        return false
      }
    });
    if (typeof value === 'undefined') {
      value = this.raw(node, null, 'beforeRule');
    } else if (value) {
      value = value.replace(/\S/g, '');
    }
    return value
  }

  rawBeforeRule(root) {
    let value;
    root.walk(i => {
      if (i.nodes && (i.parent !== root || root.first !== i)) {
        if (typeof i.raws.before !== 'undefined') {
          value = i.raws.before;
          if (value.includes('\n')) {
            value = value.replace(/[^\n]+$/, '');
          }
          return false
        }
      }
    });
    if (value) value = value.replace(/\S/g, '');
    return value
  }

  rawBeforeClose(root) {
    let value;
    root.walk(i => {
      if (i.nodes && i.nodes.length > 0) {
        if (typeof i.raws.after !== 'undefined') {
          value = i.raws.after;
          if (value.includes('\n')) {
            value = value.replace(/[^\n]+$/, '');
          }
          return false
        }
      }
    });
    if (value) value = value.replace(/\S/g, '');
    return value
  }

  rawBeforeOpen(root) {
    let value;
    root.walk(i => {
      if (i.type !== 'decl') {
        value = i.raws.between;
        if (typeof value !== 'undefined') return false
      }
    });
    return value
  }

  rawColon(root) {
    let value;
    root.walkDecls(i => {
      if (typeof i.raws.between !== 'undefined') {
        value = i.raws.between.replace(/[^\s:]/g, '');
        return false
      }
    });
    return value
  }

  beforeAfter(node, detect) {
    let value;
    if (node.type === 'decl') {
      value = this.raw(node, null, 'beforeDecl');
    } else if (node.type === 'comment') {
      value = this.raw(node, null, 'beforeComment');
    } else if (detect === 'before') {
      value = this.raw(node, null, 'beforeRule');
    } else {
      value = this.raw(node, null, 'beforeClose');
    }

    let buf = node.parent;
    let depth = 0;
    while (buf && buf.type !== 'root') {
      depth += 1;
      buf = buf.parent;
    }

    if (value.includes('\n')) {
      let indent = this.raw(node, null, 'indent');
      if (indent.length) {
        for (let step = 0; step < depth; step++) value += indent;
      }
    }

    return value
  }

  rawValue(node, prop) {
    let value = node[prop];
    let raw = node.raws[prop];
    if (raw && raw.value === value) {
      return raw.raw
    }

    return value
  }
};

var stringifier = Stringifier$2;
Stringifier$2.default = Stringifier$2;

let Stringifier$1 = stringifier;

function stringify$4(node, builder) {
  let str = new Stringifier$1(builder);
  str.stringify(node);
}

var stringify_1 = stringify$4;
stringify$4.default = stringify$4;

let { isClean: isClean$2, my: my$2 } = symbols;
let CssSyntaxError$2 = cssSyntaxError;
let Stringifier = stringifier;
let stringify$3 = stringify_1;

function cloneNode(obj, parent) {
  let cloned = new obj.constructor();

  for (let i in obj) {
    if (!Object.prototype.hasOwnProperty.call(obj, i)) {
      /* c8 ignore next 2 */
      continue
    }
    if (i === 'proxyCache') continue
    let value = obj[i];
    let type = typeof value;

    if (i === 'parent' && type === 'object') {
      if (parent) cloned[i] = parent;
    } else if (i === 'source') {
      cloned[i] = value;
    } else if (Array.isArray(value)) {
      cloned[i] = value.map(j => cloneNode(j, cloned));
    } else {
      if (type === 'object' && value !== null) value = cloneNode(value);
      cloned[i] = value;
    }
  }

  return cloned
}

let Node$4 = class Node {
  constructor(defaults = {}) {
    this.raws = {};
    this[isClean$2] = false;
    this[my$2] = true;

    for (let name in defaults) {
      if (name === 'nodes') {
        this.nodes = [];
        for (let node of defaults[name]) {
          if (typeof node.clone === 'function') {
            this.append(node.clone());
          } else {
            this.append(node);
          }
        }
      } else {
        this[name] = defaults[name];
      }
    }
  }

  error(message, opts = {}) {
    if (this.source) {
      let { start, end } = this.rangeBy(opts);
      return this.source.input.error(
        message,
        { line: start.line, column: start.column },
        { line: end.line, column: end.column },
        opts
      )
    }
    return new CssSyntaxError$2(message)
  }

  warn(result, text, opts) {
    let data = { node: this };
    for (let i in opts) data[i] = opts[i];
    return result.warn(text, data)
  }

  remove() {
    if (this.parent) {
      this.parent.removeChild(this);
    }
    this.parent = undefined;
    return this
  }

  toString(stringifier = stringify$3) {
    if (stringifier.stringify) stringifier = stringifier.stringify;
    let result = '';
    stringifier(this, i => {
      result += i;
    });
    return result
  }

  assign(overrides = {}) {
    for (let name in overrides) {
      this[name] = overrides[name];
    }
    return this
  }

  clone(overrides = {}) {
    let cloned = cloneNode(this);
    for (let name in overrides) {
      cloned[name] = overrides[name];
    }
    return cloned
  }

  cloneBefore(overrides = {}) {
    let cloned = this.clone(overrides);
    this.parent.insertBefore(this, cloned);
    return cloned
  }

  cloneAfter(overrides = {}) {
    let cloned = this.clone(overrides);
    this.parent.insertAfter(this, cloned);
    return cloned
  }

  replaceWith(...nodes) {
    if (this.parent) {
      let bookmark = this;
      let foundSelf = false;
      for (let node of nodes) {
        if (node === this) {
          foundSelf = true;
        } else if (foundSelf) {
          this.parent.insertAfter(bookmark, node);
          bookmark = node;
        } else {
          this.parent.insertBefore(bookmark, node);
        }
      }

      if (!foundSelf) {
        this.remove();
      }
    }

    return this
  }

  next() {
    if (!this.parent) return undefined
    let index = this.parent.index(this);
    return this.parent.nodes[index + 1]
  }

  prev() {
    if (!this.parent) return undefined
    let index = this.parent.index(this);
    return this.parent.nodes[index - 1]
  }

  before(add) {
    this.parent.insertBefore(this, add);
    return this
  }

  after(add) {
    this.parent.insertAfter(this, add);
    return this
  }

  root() {
    let result = this;
    while (result.parent && result.parent.type !== 'document') {
      result = result.parent;
    }
    return result
  }

  raw(prop, defaultType) {
    let str = new Stringifier();
    return str.raw(this, prop, defaultType)
  }

  cleanRaws(keepBetween) {
    delete this.raws.before;
    delete this.raws.after;
    if (!keepBetween) delete this.raws.between;
  }

  toJSON(_, inputs) {
    let fixed = {};
    let emitInputs = inputs == null;
    inputs = inputs || new Map();
    let inputsNextIndex = 0;

    for (let name in this) {
      if (!Object.prototype.hasOwnProperty.call(this, name)) {
        /* c8 ignore next 2 */
        continue
      }
      if (name === 'parent' || name === 'proxyCache') continue
      let value = this[name];

      if (Array.isArray(value)) {
        fixed[name] = value.map(i => {
          if (typeof i === 'object' && i.toJSON) {
            return i.toJSON(null, inputs)
          } else {
            return i
          }
        });
      } else if (typeof value === 'object' && value.toJSON) {
        fixed[name] = value.toJSON(null, inputs);
      } else if (name === 'source') {
        let inputId = inputs.get(value.input);
        if (inputId == null) {
          inputId = inputsNextIndex;
          inputs.set(value.input, inputsNextIndex);
          inputsNextIndex++;
        }
        fixed[name] = {
          inputId,
          start: value.start,
          end: value.end
        };
      } else {
        fixed[name] = value;
      }
    }

    if (emitInputs) {
      fixed.inputs = [...inputs.keys()].map(input => input.toJSON());
    }

    return fixed
  }

  positionInside(index) {
    let string = this.toString();
    let column = this.source.start.column;
    let line = this.source.start.line;

    for (let i = 0; i < index; i++) {
      if (string[i] === '\n') {
        column = 1;
        line += 1;
      } else {
        column += 1;
      }
    }

    return { line, column }
  }

  positionBy(opts) {
    let pos = this.source.start;
    if (opts.index) {
      pos = this.positionInside(opts.index);
    } else if (opts.word) {
      let index = this.toString().indexOf(opts.word);
      if (index !== -1) pos = this.positionInside(index);
    }
    return pos
  }

  rangeBy(opts) {
    let start = {
      line: this.source.start.line,
      column: this.source.start.column
    };
    let end = this.source.end
      ? {
          line: this.source.end.line,
          column: this.source.end.column + 1
        }
      : {
          line: start.line,
          column: start.column + 1
        };

    if (opts.word) {
      let index = this.toString().indexOf(opts.word);
      if (index !== -1) {
        start = this.positionInside(index);
        end = this.positionInside(index + opts.word.length);
      }
    } else {
      if (opts.start) {
        start = {
          line: opts.start.line,
          column: opts.start.column
        };
      } else if (opts.index) {
        start = this.positionInside(opts.index);
      }

      if (opts.end) {
        end = {
          line: opts.end.line,
          column: opts.end.column
        };
      } else if (opts.endIndex) {
        end = this.positionInside(opts.endIndex);
      } else if (opts.index) {
        end = this.positionInside(opts.index + 1);
      }
    }

    if (
      end.line < start.line ||
      (end.line === start.line && end.column <= start.column)
    ) {
      end = { line: start.line, column: start.column + 1 };
    }

    return { start, end }
  }

  getProxyProcessor() {
    return {
      set(node, prop, value) {
        if (node[prop] === value) return true
        node[prop] = value;
        if (
          prop === 'prop' ||
          prop === 'value' ||
          prop === 'name' ||
          prop === 'params' ||
          prop === 'important' ||
          /* c8 ignore next */
          prop === 'text'
        ) {
          node.markDirty();
        }
        return true
      },

      get(node, prop) {
        if (prop === 'proxyOf') {
          return node
        } else if (prop === 'root') {
          return () => node.root().toProxy()
        } else {
          return node[prop]
        }
      }
    }
  }

  toProxy() {
    if (!this.proxyCache) {
      this.proxyCache = new Proxy(this, this.getProxyProcessor());
    }
    return this.proxyCache
  }

  addToError(error) {
    error.postcssNode = this;
    if (error.stack && this.source && /\n\s{4}at /.test(error.stack)) {
      let s = this.source;
      error.stack = error.stack.replace(
        /\n\s{4}at /,
        `$&${s.input.from}:${s.start.line}:${s.start.column}$&`
      );
    }
    return error
  }

  markDirty() {
    if (this[isClean$2]) {
      this[isClean$2] = false;
      let next = this;
      while ((next = next.parent)) {
        next[isClean$2] = false;
      }
    }
  }

  get proxyOf() {
    return this
  }
};

var node$2 = Node$4;
Node$4.default = Node$4;

let Node$3 = node$2;

let Declaration$4 = class Declaration extends Node$3 {
  constructor(defaults) {
    if (
      defaults &&
      typeof defaults.value !== 'undefined' &&
      typeof defaults.value !== 'string'
    ) {
      defaults = { ...defaults, value: String(defaults.value) };
    }
    super(defaults);
    this.type = 'decl';
  }

  get variable() {
    return this.prop.startsWith('--') || this.prop[0] === '$'
  }
};

var declaration = Declaration$4;
Declaration$4.default = Declaration$4;

var require$$2 = /*@__PURE__*/getAugmentedNamespace(_polyfillNode_url$1);

let urlAlphabet =
  'useandom-26T198340PX75pxJACKVERYMINDBUSHWOLF_GQZbfghjklqvwyzrict';
let customAlphabet = (alphabet, defaultSize = 21) => {
  return (size = defaultSize) => {
    let id = '';
    let i = size;
    while (i--) {
      id += alphabet[(Math.random() * alphabet.length) | 0];
    }
    return id
  }
};
let nanoid$1 = (size = 21) => {
  let id = '';
  let i = size;
  while (i--) {
    id += urlAlphabet[(Math.random() * 64) | 0];
  }
  return id
};
var nonSecure = { nanoid: nanoid$1, customAlphabet };

let { SourceMapConsumer: SourceMapConsumer$4, SourceMapGenerator: SourceMapGenerator$5 } = sourceMap$2;
let { existsSync, readFileSync } = require$$0$2;
let { dirname: dirname$1, join } = require$$2$1;

function fromBase64(str) {
  if (Buffer$1) {
    return Buffer$1.from(str, 'base64').toString()
  } else {
    /* c8 ignore next 2 */
    return window.atob(str)
  }
}

let PreviousMap$2 = class PreviousMap {
  constructor(css, opts) {
    if (opts.map === false) return
    this.loadAnnotation(css);
    this.inline = this.startWith(this.annotation, 'data:');

    let prev = opts.map ? opts.map.prev : undefined;
    let text = this.loadMap(opts.from, prev);
    if (!this.mapFile && opts.from) {
      this.mapFile = opts.from;
    }
    if (this.mapFile) this.root = dirname$1(this.mapFile);
    if (text) this.text = text;
  }

  consumer() {
    if (!this.consumerCache) {
      this.consumerCache = new SourceMapConsumer$4(this.text);
    }
    return this.consumerCache
  }

  withContent() {
    return !!(
      this.consumer().sourcesContent &&
      this.consumer().sourcesContent.length > 0
    )
  }

  startWith(string, start) {
    if (!string) return false
    return string.substr(0, start.length) === start
  }

  getAnnotationURL(sourceMapString) {
    return sourceMapString.replace(/^\/\*\s*# sourceMappingURL=/, '').trim()
  }

  loadAnnotation(css) {
    let comments = css.match(/\/\*\s*# sourceMappingURL=/gm);
    if (!comments) return

    // sourceMappingURLs from comments, strings, etc.
    let start = css.lastIndexOf(comments.pop());
    let end = css.indexOf('*/', start);

    if (start > -1 && end > -1) {
      // Locate the last sourceMappingURL to avoid pickin
      this.annotation = this.getAnnotationURL(css.substring(start, end));
    }
  }

  decodeInline(text) {
    let baseCharsetUri = /^data:application\/json;charset=utf-?8;base64,/;
    let baseUri = /^data:application\/json;base64,/;
    let charsetUri = /^data:application\/json;charset=utf-?8,/;
    let uri = /^data:application\/json,/;

    if (charsetUri.test(text) || uri.test(text)) {
      return decodeURIComponent(text.substr(RegExp.lastMatch.length))
    }

    if (baseCharsetUri.test(text) || baseUri.test(text)) {
      return fromBase64(text.substr(RegExp.lastMatch.length))
    }

    let encoding = text.match(/data:application\/json;([^,]+),/)[1];
    throw new Error('Unsupported source map encoding ' + encoding)
  }

  loadFile(path) {
    this.root = dirname$1(path);
    if (existsSync(path)) {
      this.mapFile = path;
      return readFileSync(path, 'utf-8').toString().trim()
    }
  }

  loadMap(file, prev) {
    if (prev === false) return false

    if (prev) {
      if (typeof prev === 'string') {
        return prev
      } else if (typeof prev === 'function') {
        let prevPath = prev(file);
        if (prevPath) {
          let map = this.loadFile(prevPath);
          if (!map) {
            throw new Error(
              'Unable to load previous source map: ' + prevPath.toString()
            )
          }
          return map
        }
      } else if (prev instanceof SourceMapConsumer$4) {
        return SourceMapGenerator$5.fromSourceMap(prev).toString()
      } else if (prev instanceof SourceMapGenerator$5) {
        return prev.toString()
      } else if (this.isMap(prev)) {
        return JSON.stringify(prev)
      } else {
        throw new Error(
          'Unsupported previous source map format: ' + prev.toString()
        )
      }
    } else if (this.inline) {
      return this.decodeInline(this.annotation)
    } else if (this.annotation) {
      let map = this.annotation;
      if (file) map = join(dirname$1(file), map);
      return this.loadFile(map)
    }
  }

  isMap(map) {
    if (typeof map !== 'object') return false
    return (
      typeof map.mappings === 'string' ||
      typeof map._mappings === 'string' ||
      Array.isArray(map.sections)
    )
  }
};

var previousMap = PreviousMap$2;
PreviousMap$2.default = PreviousMap$2;

let { SourceMapConsumer: SourceMapConsumer$3, SourceMapGenerator: SourceMapGenerator$4 } = sourceMap$2;
let { fileURLToPath, pathToFileURL: pathToFileURL$1 } = require$$2;
let { resolve: resolve$1, isAbsolute } = require$$2$1;
let { nanoid } = nonSecure;

let terminalHighlight = terminalHighlight_1;
let CssSyntaxError$1 = cssSyntaxError;
let PreviousMap$1 = previousMap;

let fromOffsetCache = Symbol('fromOffsetCache');

let sourceMapAvailable$1 = Boolean(SourceMapConsumer$3 && SourceMapGenerator$4);
let pathAvailable$1 = Boolean(resolve$1 && isAbsolute);

let Input$4 = class Input {
  constructor(css, opts = {}) {
    if (
      css === null ||
      typeof css === 'undefined' ||
      (typeof css === 'object' && !css.toString)
    ) {
      throw new Error(`PostCSS received ${css} instead of CSS string`)
    }

    this.css = css.toString();

    if (this.css[0] === '\uFEFF' || this.css[0] === '\uFFFE') {
      this.hasBOM = true;
      this.css = this.css.slice(1);
    } else {
      this.hasBOM = false;
    }

    if (opts.from) {
      if (
        !pathAvailable$1 ||
        /^\w+:\/\//.test(opts.from) ||
        isAbsolute(opts.from)
      ) {
        this.file = opts.from;
      } else {
        this.file = resolve$1(opts.from);
      }
    }

    if (pathAvailable$1 && sourceMapAvailable$1) {
      let map = new PreviousMap$1(this.css, opts);
      if (map.text) {
        this.map = map;
        let file = map.consumer().file;
        if (!this.file && file) this.file = this.mapResolve(file);
      }
    }

    if (!this.file) {
      this.id = '<input css ' + nanoid(6) + '>';
    }
    if (this.map) this.map.file = this.from;
  }

  fromOffset(offset) {
    let lastLine, lineToIndex;
    if (!this[fromOffsetCache]) {
      let lines = this.css.split('\n');
      lineToIndex = new Array(lines.length);
      let prevIndex = 0;

      for (let i = 0, l = lines.length; i < l; i++) {
        lineToIndex[i] = prevIndex;
        prevIndex += lines[i].length + 1;
      }

      this[fromOffsetCache] = lineToIndex;
    } else {
      lineToIndex = this[fromOffsetCache];
    }
    lastLine = lineToIndex[lineToIndex.length - 1];

    let min = 0;
    if (offset >= lastLine) {
      min = lineToIndex.length - 1;
    } else {
      let max = lineToIndex.length - 2;
      let mid;
      while (min < max) {
        mid = min + ((max - min) >> 1);
        if (offset < lineToIndex[mid]) {
          max = mid - 1;
        } else if (offset >= lineToIndex[mid + 1]) {
          min = mid + 1;
        } else {
          min = mid;
          break
        }
      }
    }
    return {
      line: min + 1,
      col: offset - lineToIndex[min] + 1
    }
  }

  error(message, line, column, opts = {}) {
    let result, endLine, endColumn;

    if (line && typeof line === 'object') {
      let start = line;
      let end = column;
      if (typeof start.offset === 'number') {
        let pos = this.fromOffset(start.offset);
        line = pos.line;
        column = pos.col;
      } else {
        line = start.line;
        column = start.column;
      }
      if (typeof end.offset === 'number') {
        let pos = this.fromOffset(end.offset);
        endLine = pos.line;
        endColumn = pos.col;
      } else {
        endLine = end.line;
        endColumn = end.column;
      }
    } else if (!column) {
      let pos = this.fromOffset(line);
      line = pos.line;
      column = pos.col;
    }

    let origin = this.origin(line, column, endLine, endColumn);
    if (origin) {
      result = new CssSyntaxError$1(
        message,
        origin.endLine === undefined
          ? origin.line
          : { line: origin.line, column: origin.column },
        origin.endLine === undefined
          ? origin.column
          : { line: origin.endLine, column: origin.endColumn },
        origin.source,
        origin.file,
        opts.plugin
      );
    } else {
      result = new CssSyntaxError$1(
        message,
        endLine === undefined ? line : { line, column },
        endLine === undefined ? column : { line: endLine, column: endColumn },
        this.css,
        this.file,
        opts.plugin
      );
    }

    result.input = { line, column, endLine, endColumn, source: this.css };
    if (this.file) {
      if (pathToFileURL$1) {
        result.input.url = pathToFileURL$1(this.file).toString();
      }
      result.input.file = this.file;
    }

    return result
  }

  origin(line, column, endLine, endColumn) {
    if (!this.map) return false
    let consumer = this.map.consumer();

    let from = consumer.originalPositionFor({ line, column });
    if (!from.source) return false

    let to;
    if (typeof endLine === 'number') {
      to = consumer.originalPositionFor({ line: endLine, column: endColumn });
    }

    let fromUrl;

    if (isAbsolute(from.source)) {
      fromUrl = pathToFileURL$1(from.source);
    } else {
      fromUrl = new URL(
        from.source,
        this.map.consumer().sourceRoot || pathToFileURL$1(this.map.mapFile)
      );
    }

    let result = {
      url: fromUrl.toString(),
      line: from.line,
      column: from.column,
      endLine: to && to.line,
      endColumn: to && to.column
    };

    if (fromUrl.protocol === 'file:') {
      if (fileURLToPath) {
        result.file = fileURLToPath(fromUrl);
      } else {
        /* c8 ignore next 2 */
        throw new Error(`file: protocol is not available in this PostCSS build`)
      }
    }

    let source = consumer.sourceContentFor(from.source);
    if (source) result.source = source;

    return result
  }

  mapResolve(file) {
    if (/^\w+:\/\//.test(file)) {
      return file
    }
    return resolve$1(this.map.consumer().sourceRoot || this.map.root || '.', file)
  }

  get from() {
    return this.file || this.id
  }

  toJSON() {
    let json = {};
    for (let name of ['hasBOM', 'css', 'file', 'id']) {
      if (this[name] != null) {
        json[name] = this[name];
      }
    }
    if (this.map) {
      json.map = { ...this.map };
      if (json.map.consumerCache) {
        json.map.consumerCache = undefined;
      }
    }
    return json
  }
};

var input = Input$4;
Input$4.default = Input$4;

if (terminalHighlight && terminalHighlight.registerInput) {
  terminalHighlight.registerInput(Input$4);
}

let { SourceMapConsumer: SourceMapConsumer$2, SourceMapGenerator: SourceMapGenerator$3 } = sourceMap$2;
let { dirname, resolve, relative, sep } = require$$2$1;
let { pathToFileURL } = require$$2;

let Input$3 = input;

let sourceMapAvailable = Boolean(SourceMapConsumer$2 && SourceMapGenerator$3);
let pathAvailable = Boolean(dirname && resolve && relative && sep);

let MapGenerator$2 = class MapGenerator {
  constructor(stringify, root, opts, cssString) {
    this.stringify = stringify;
    this.mapOpts = opts.map || {};
    this.root = root;
    this.opts = opts;
    this.css = cssString;
    this.usesFileUrls = !this.mapOpts.from && this.mapOpts.absolute;
  }

  isMap() {
    if (typeof this.opts.map !== 'undefined') {
      return !!this.opts.map
    }
    return this.previous().length > 0
  }

  previous() {
    if (!this.previousMaps) {
      this.previousMaps = [];
      if (this.root) {
        this.root.walk(node => {
          if (node.source && node.source.input.map) {
            let map = node.source.input.map;
            if (!this.previousMaps.includes(map)) {
              this.previousMaps.push(map);
            }
          }
        });
      } else {
        let input = new Input$3(this.css, this.opts);
        if (input.map) this.previousMaps.push(input.map);
      }
    }

    return this.previousMaps
  }

  isInline() {
    if (typeof this.mapOpts.inline !== 'undefined') {
      return this.mapOpts.inline
    }

    let annotation = this.mapOpts.annotation;
    if (typeof annotation !== 'undefined' && annotation !== true) {
      return false
    }

    if (this.previous().length) {
      return this.previous().some(i => i.inline)
    }
    return true
  }

  isSourcesContent() {
    if (typeof this.mapOpts.sourcesContent !== 'undefined') {
      return this.mapOpts.sourcesContent
    }
    if (this.previous().length) {
      return this.previous().some(i => i.withContent())
    }
    return true
  }

  clearAnnotation() {
    if (this.mapOpts.annotation === false) return

    if (this.root) {
      let node;
      for (let i = this.root.nodes.length - 1; i >= 0; i--) {
        node = this.root.nodes[i];
        if (node.type !== 'comment') continue
        if (node.text.indexOf('# sourceMappingURL=') === 0) {
          this.root.removeChild(i);
        }
      }
    } else if (this.css) {
      this.css = this.css.replace(/(\n)?\/\*#[\S\s]*?\*\/$/gm, '');
    }
  }

  setSourcesContent() {
    let already = {};
    if (this.root) {
      this.root.walk(node => {
        if (node.source) {
          let from = node.source.input.from;
          if (from && !already[from]) {
            already[from] = true;
            let fromUrl = this.usesFileUrls
              ? this.toFileUrl(from)
              : this.toUrl(this.path(from));
            this.map.setSourceContent(fromUrl, node.source.input.css);
          }
        }
      });
    } else if (this.css) {
      let from = this.opts.from
        ? this.toUrl(this.path(this.opts.from))
        : '<no source>';
      this.map.setSourceContent(from, this.css);
    }
  }

  applyPrevMaps() {
    for (let prev of this.previous()) {
      let from = this.toUrl(this.path(prev.file));
      let root = prev.root || dirname(prev.file);
      let map;

      if (this.mapOpts.sourcesContent === false) {
        map = new SourceMapConsumer$2(prev.text);
        if (map.sourcesContent) {
          map.sourcesContent = map.sourcesContent.map(() => null);
        }
      } else {
        map = prev.consumer();
      }

      this.map.applySourceMap(map, from, this.toUrl(this.path(root)));
    }
  }

  isAnnotation() {
    if (this.isInline()) {
      return true
    }
    if (typeof this.mapOpts.annotation !== 'undefined') {
      return this.mapOpts.annotation
    }
    if (this.previous().length) {
      return this.previous().some(i => i.annotation)
    }
    return true
  }

  toBase64(str) {
    if (Buffer$1) {
      return Buffer$1.from(str).toString('base64')
    } else {
      return window.btoa(unescape(encodeURIComponent(str)))
    }
  }

  addAnnotation() {
    let content;

    if (this.isInline()) {
      content =
        'data:application/json;base64,' + this.toBase64(this.map.toString());
    } else if (typeof this.mapOpts.annotation === 'string') {
      content = this.mapOpts.annotation;
    } else if (typeof this.mapOpts.annotation === 'function') {
      content = this.mapOpts.annotation(this.opts.to, this.root);
    } else {
      content = this.outputFile() + '.map';
    }
    let eol = '\n';
    if (this.css.includes('\r\n')) eol = '\r\n';

    this.css += eol + '/*# sourceMappingURL=' + content + ' */';
  }

  outputFile() {
    if (this.opts.to) {
      return this.path(this.opts.to)
    } else if (this.opts.from) {
      return this.path(this.opts.from)
    } else {
      return 'to.css'
    }
  }

  generateMap() {
    if (this.root) {
      this.generateString();
    } else if (this.previous().length === 1) {
      let prev = this.previous()[0].consumer();
      prev.file = this.outputFile();
      this.map = SourceMapGenerator$3.fromSourceMap(prev);
    } else {
      this.map = new SourceMapGenerator$3({ file: this.outputFile() });
      this.map.addMapping({
        source: this.opts.from
          ? this.toUrl(this.path(this.opts.from))
          : '<no source>',
        generated: { line: 1, column: 0 },
        original: { line: 1, column: 0 }
      });
    }

    if (this.isSourcesContent()) this.setSourcesContent();
    if (this.root && this.previous().length > 0) this.applyPrevMaps();
    if (this.isAnnotation()) this.addAnnotation();

    if (this.isInline()) {
      return [this.css]
    } else {
      return [this.css, this.map]
    }
  }

  path(file) {
    if (file.indexOf('<') === 0) return file
    if (/^\w+:\/\//.test(file)) return file
    if (this.mapOpts.absolute) return file

    let from = this.opts.to ? dirname(this.opts.to) : '.';

    if (typeof this.mapOpts.annotation === 'string') {
      from = dirname(resolve(from, this.mapOpts.annotation));
    }

    file = relative(from, file);
    return file
  }

  toUrl(path) {
    if (sep === '\\') {
      path = path.replace(/\\/g, '/');
    }
    return encodeURI(path).replace(/[#?]/g, encodeURIComponent)
  }

  toFileUrl(path) {
    if (pathToFileURL) {
      return pathToFileURL(path).toString()
    } else {
      throw new Error(
        '`map.absolute` option is not available in this PostCSS build'
      )
    }
  }

  sourcePath(node) {
    if (this.mapOpts.from) {
      return this.toUrl(this.mapOpts.from)
    } else if (this.usesFileUrls) {
      return this.toFileUrl(node.source.input.from)
    } else {
      return this.toUrl(this.path(node.source.input.from))
    }
  }

  generateString() {
    this.css = '';
    this.map = new SourceMapGenerator$3({ file: this.outputFile() });

    let line = 1;
    let column = 1;

    let noSource = '<no source>';
    let mapping = {
      source: '',
      generated: { line: 0, column: 0 },
      original: { line: 0, column: 0 }
    };

    let lines, last;
    this.stringify(this.root, (str, node, type) => {
      this.css += str;

      if (node && type !== 'end') {
        mapping.generated.line = line;
        mapping.generated.column = column - 1;
        if (node.source && node.source.start) {
          mapping.source = this.sourcePath(node);
          mapping.original.line = node.source.start.line;
          mapping.original.column = node.source.start.column - 1;
          this.map.addMapping(mapping);
        } else {
          mapping.source = noSource;
          mapping.original.line = 1;
          mapping.original.column = 0;
          this.map.addMapping(mapping);
        }
      }

      lines = str.match(/\n/g);
      if (lines) {
        line += lines.length;
        last = str.lastIndexOf('\n');
        column = str.length - last;
      } else {
        column += str.length;
      }

      if (node && type !== 'start') {
        let p = node.parent || { raws: {} };
        let childless =
          node.type === 'decl' || (node.type === 'atrule' && !node.nodes);
        if (!childless || node !== p.last || p.raws.semicolon) {
          if (node.source && node.source.end) {
            mapping.source = this.sourcePath(node);
            mapping.original.line = node.source.end.line;
            mapping.original.column = node.source.end.column - 1;
            mapping.generated.line = line;
            mapping.generated.column = column - 2;
            this.map.addMapping(mapping);
          } else {
            mapping.source = noSource;
            mapping.original.line = 1;
            mapping.original.column = 0;
            mapping.generated.line = line;
            mapping.generated.column = column - 1;
            this.map.addMapping(mapping);
          }
        }
      }
    });
  }

  generate() {
    this.clearAnnotation();
    if (pathAvailable && sourceMapAvailable && this.isMap()) {
      return this.generateMap()
    } else {
      let result = '';
      this.stringify(this.root, i => {
        result += i;
      });
      return [result]
    }
  }
};

var mapGenerator = MapGenerator$2;

let Node$2 = node$2;

let Comment$4 = class Comment extends Node$2 {
  constructor(defaults) {
    super(defaults);
    this.type = 'comment';
  }
};

var comment$3 = Comment$4;
Comment$4.default = Comment$4;

let { isClean: isClean$1, my: my$1 } = symbols;
let Declaration$3 = declaration;
let Comment$3 = comment$3;
let Node$1 = node$2;

let parse$4, Rule$4, AtRule$4, Root$6;

function cleanSource(nodes) {
  return nodes.map(i => {
    if (i.nodes) i.nodes = cleanSource(i.nodes);
    delete i.source;
    return i
  })
}

function markDirtyUp(node) {
  node[isClean$1] = false;
  if (node.proxyOf.nodes) {
    for (let i of node.proxyOf.nodes) {
      markDirtyUp(i);
    }
  }
}

let Container$7 = class Container extends Node$1 {
  push(child) {
    child.parent = this;
    this.proxyOf.nodes.push(child);
    return this
  }

  each(callback) {
    if (!this.proxyOf.nodes) return undefined
    let iterator = this.getIterator();

    let index, result;
    while (this.indexes[iterator] < this.proxyOf.nodes.length) {
      index = this.indexes[iterator];
      result = callback(this.proxyOf.nodes[index], index);
      if (result === false) break

      this.indexes[iterator] += 1;
    }

    delete this.indexes[iterator];
    return result
  }

  walk(callback) {
    return this.each((child, i) => {
      let result;
      try {
        result = callback(child, i);
      } catch (e) {
        throw child.addToError(e)
      }
      if (result !== false && child.walk) {
        result = child.walk(callback);
      }

      return result
    })
  }

  walkDecls(prop, callback) {
    if (!callback) {
      callback = prop;
      return this.walk((child, i) => {
        if (child.type === 'decl') {
          return callback(child, i)
        }
      })
    }
    if (prop instanceof RegExp) {
      return this.walk((child, i) => {
        if (child.type === 'decl' && prop.test(child.prop)) {
          return callback(child, i)
        }
      })
    }
    return this.walk((child, i) => {
      if (child.type === 'decl' && child.prop === prop) {
        return callback(child, i)
      }
    })
  }

  walkRules(selector, callback) {
    if (!callback) {
      callback = selector;

      return this.walk((child, i) => {
        if (child.type === 'rule') {
          return callback(child, i)
        }
      })
    }
    if (selector instanceof RegExp) {
      return this.walk((child, i) => {
        if (child.type === 'rule' && selector.test(child.selector)) {
          return callback(child, i)
        }
      })
    }
    return this.walk((child, i) => {
      if (child.type === 'rule' && child.selector === selector) {
        return callback(child, i)
      }
    })
  }

  walkAtRules(name, callback) {
    if (!callback) {
      callback = name;
      return this.walk((child, i) => {
        if (child.type === 'atrule') {
          return callback(child, i)
        }
      })
    }
    if (name instanceof RegExp) {
      return this.walk((child, i) => {
        if (child.type === 'atrule' && name.test(child.name)) {
          return callback(child, i)
        }
      })
    }
    return this.walk((child, i) => {
      if (child.type === 'atrule' && child.name === name) {
        return callback(child, i)
      }
    })
  }

  walkComments(callback) {
    return this.walk((child, i) => {
      if (child.type === 'comment') {
        return callback(child, i)
      }
    })
  }

  append(...children) {
    for (let child of children) {
      let nodes = this.normalize(child, this.last);
      for (let node of nodes) this.proxyOf.nodes.push(node);
    }

    this.markDirty();

    return this
  }

  prepend(...children) {
    children = children.reverse();
    for (let child of children) {
      let nodes = this.normalize(child, this.first, 'prepend').reverse();
      for (let node of nodes) this.proxyOf.nodes.unshift(node);
      for (let id in this.indexes) {
        this.indexes[id] = this.indexes[id] + nodes.length;
      }
    }

    this.markDirty();

    return this
  }

  cleanRaws(keepBetween) {
    super.cleanRaws(keepBetween);
    if (this.nodes) {
      for (let node of this.nodes) node.cleanRaws(keepBetween);
    }
  }

  insertBefore(exist, add) {
    let existIndex = this.index(exist);
    let type = existIndex === 0 ? 'prepend' : false;
    let nodes = this.normalize(add, this.proxyOf.nodes[existIndex], type).reverse();
    existIndex = this.index(exist);
    for (let node of nodes) this.proxyOf.nodes.splice(existIndex, 0, node);

    let index;
    for (let id in this.indexes) {
      index = this.indexes[id];
      if (existIndex <= index) {
        this.indexes[id] = index + nodes.length;
      }
    }

    this.markDirty();

    return this
  }

  insertAfter(exist, add) {
    let existIndex = this.index(exist);
    let nodes = this.normalize(add, this.proxyOf.nodes[existIndex]).reverse();
    existIndex = this.index(exist);
    for (let node of nodes) this.proxyOf.nodes.splice(existIndex + 1, 0, node);

    let index;
    for (let id in this.indexes) {
      index = this.indexes[id];
      if (existIndex < index) {
        this.indexes[id] = index + nodes.length;
      }
    }

    this.markDirty();

    return this
  }

  removeChild(child) {
    child = this.index(child);
    this.proxyOf.nodes[child].parent = undefined;
    this.proxyOf.nodes.splice(child, 1);

    let index;
    for (let id in this.indexes) {
      index = this.indexes[id];
      if (index >= child) {
        this.indexes[id] = index - 1;
      }
    }

    this.markDirty();

    return this
  }

  removeAll() {
    for (let node of this.proxyOf.nodes) node.parent = undefined;
    this.proxyOf.nodes = [];

    this.markDirty();

    return this
  }

  replaceValues(pattern, opts, callback) {
    if (!callback) {
      callback = opts;
      opts = {};
    }

    this.walkDecls(decl => {
      if (opts.props && !opts.props.includes(decl.prop)) return
      if (opts.fast && !decl.value.includes(opts.fast)) return

      decl.value = decl.value.replace(pattern, callback);
    });

    this.markDirty();

    return this
  }

  every(condition) {
    return this.nodes.every(condition)
  }

  some(condition) {
    return this.nodes.some(condition)
  }

  index(child) {
    if (typeof child === 'number') return child
    if (child.proxyOf) child = child.proxyOf;
    return this.proxyOf.nodes.indexOf(child)
  }

  get first() {
    if (!this.proxyOf.nodes) return undefined
    return this.proxyOf.nodes[0]
  }

  get last() {
    if (!this.proxyOf.nodes) return undefined
    return this.proxyOf.nodes[this.proxyOf.nodes.length - 1]
  }

  normalize(nodes, sample) {
    if (typeof nodes === 'string') {
      nodes = cleanSource(parse$4(nodes).nodes);
    } else if (Array.isArray(nodes)) {
      nodes = nodes.slice(0);
      for (let i of nodes) {
        if (i.parent) i.parent.removeChild(i, 'ignore');
      }
    } else if (nodes.type === 'root' && this.type !== 'document') {
      nodes = nodes.nodes.slice(0);
      for (let i of nodes) {
        if (i.parent) i.parent.removeChild(i, 'ignore');
      }
    } else if (nodes.type) {
      nodes = [nodes];
    } else if (nodes.prop) {
      if (typeof nodes.value === 'undefined') {
        throw new Error('Value field is missed in node creation')
      } else if (typeof nodes.value !== 'string') {
        nodes.value = String(nodes.value);
      }
      nodes = [new Declaration$3(nodes)];
    } else if (nodes.selector) {
      nodes = [new Rule$4(nodes)];
    } else if (nodes.name) {
      nodes = [new AtRule$4(nodes)];
    } else if (nodes.text) {
      nodes = [new Comment$3(nodes)];
    } else {
      throw new Error('Unknown node type in node creation')
    }

    let processed = nodes.map(i => {
      /* c8 ignore next */
      if (!i[my$1]) Container.rebuild(i);
      i = i.proxyOf;
      if (i.parent) i.parent.removeChild(i);
      if (i[isClean$1]) markDirtyUp(i);
      if (typeof i.raws.before === 'undefined') {
        if (sample && typeof sample.raws.before !== 'undefined') {
          i.raws.before = sample.raws.before.replace(/\S/g, '');
        }
      }
      i.parent = this.proxyOf;
      return i
    });

    return processed
  }

  getProxyProcessor() {
    return {
      set(node, prop, value) {
        if (node[prop] === value) return true
        node[prop] = value;
        if (prop === 'name' || prop === 'params' || prop === 'selector') {
          node.markDirty();
        }
        return true
      },

      get(node, prop) {
        if (prop === 'proxyOf') {
          return node
        } else if (!node[prop]) {
          return node[prop]
        } else if (
          prop === 'each' ||
          (typeof prop === 'string' && prop.startsWith('walk'))
        ) {
          return (...args) => {
            return node[prop](
              ...args.map(i => {
                if (typeof i === 'function') {
                  return (child, index) => i(child.toProxy(), index)
                } else {
                  return i
                }
              })
            )
          }
        } else if (prop === 'every' || prop === 'some') {
          return cb => {
            return node[prop]((child, ...other) =>
              cb(child.toProxy(), ...other)
            )
          }
        } else if (prop === 'root') {
          return () => node.root().toProxy()
        } else if (prop === 'nodes') {
          return node.nodes.map(i => i.toProxy())
        } else if (prop === 'first' || prop === 'last') {
          return node[prop].toProxy()
        } else {
          return node[prop]
        }
      }
    }
  }

  getIterator() {
    if (!this.lastEach) this.lastEach = 0;
    if (!this.indexes) this.indexes = {};

    this.lastEach += 1;
    let iterator = this.lastEach;
    this.indexes[iterator] = 0;

    return iterator
  }
};

Container$7.registerParse = dependant => {
  parse$4 = dependant;
};

Container$7.registerRule = dependant => {
  Rule$4 = dependant;
};

Container$7.registerAtRule = dependant => {
  AtRule$4 = dependant;
};

Container$7.registerRoot = dependant => {
  Root$6 = dependant;
};

var container$1 = Container$7;
Container$7.default = Container$7;

/* c8 ignore start */
Container$7.rebuild = node => {
  if (node.type === 'atrule') {
    Object.setPrototypeOf(node, AtRule$4.prototype);
  } else if (node.type === 'rule') {
    Object.setPrototypeOf(node, Rule$4.prototype);
  } else if (node.type === 'decl') {
    Object.setPrototypeOf(node, Declaration$3.prototype);
  } else if (node.type === 'comment') {
    Object.setPrototypeOf(node, Comment$3.prototype);
  } else if (node.type === 'root') {
    Object.setPrototypeOf(node, Root$6.prototype);
  }

  node[my$1] = true;

  if (node.nodes) {
    node.nodes.forEach(child => {
      Container$7.rebuild(child);
    });
  }
};

let Container$6 = container$1;

let LazyResult$4, Processor$3;

let Document$3 = class Document extends Container$6 {
  constructor(defaults) {
    // type needs to be passed to super, otherwise child roots won't be normalized correctly
    super({ type: 'document', ...defaults });

    if (!this.nodes) {
      this.nodes = [];
    }
  }

  toResult(opts = {}) {
    let lazy = new LazyResult$4(new Processor$3(), this, opts);

    return lazy.stringify()
  }
};

Document$3.registerLazyResult = dependant => {
  LazyResult$4 = dependant;
};

Document$3.registerProcessor = dependant => {
  Processor$3 = dependant;
};

var document = Document$3;
Document$3.default = Document$3;

/* eslint-disable no-console */

let printed = {};

var warnOnce$3 = function warnOnce(message) {
  if (printed[message]) return
  printed[message] = true;

  if (typeof console !== 'undefined' && console.warn) {
    console.warn(message);
  }
};

let Warning$2 = class Warning {
  constructor(text, opts = {}) {
    this.type = 'warning';
    this.text = text;

    if (opts.node && opts.node.source) {
      let range = opts.node.rangeBy(opts);
      this.line = range.start.line;
      this.column = range.start.column;
      this.endLine = range.end.line;
      this.endColumn = range.end.column;
    }

    for (let opt in opts) this[opt] = opts[opt];
  }

  toString() {
    if (this.node) {
      return this.node.error(this.text, {
        plugin: this.plugin,
        index: this.index,
        word: this.word
      }).message
    }

    if (this.plugin) {
      return this.plugin + ': ' + this.text
    }

    return this.text
  }
};

var warning = Warning$2;
Warning$2.default = Warning$2;

let Warning$1 = warning;

let Result$3 = class Result {
  constructor(processor, root, opts) {
    this.processor = processor;
    this.messages = [];
    this.root = root;
    this.opts = opts;
    this.css = undefined;
    this.map = undefined;
  }

  toString() {
    return this.css
  }

  warn(text, opts = {}) {
    if (!opts.plugin) {
      if (this.lastPlugin && this.lastPlugin.postcssPlugin) {
        opts.plugin = this.lastPlugin.postcssPlugin;
      }
    }

    let warning = new Warning$1(text, opts);
    this.messages.push(warning);

    return warning
  }

  warnings() {
    return this.messages.filter(i => i.type === 'warning')
  }

  get content() {
    return this.css
  }
};

var result = Result$3;
Result$3.default = Result$3;

let Container$5 = container$1;

let AtRule$3 = class AtRule extends Container$5 {
  constructor(defaults) {
    super(defaults);
    this.type = 'atrule';
  }

  append(...children) {
    if (!this.proxyOf.nodes) this.nodes = [];
    return super.append(...children)
  }

  prepend(...children) {
    if (!this.proxyOf.nodes) this.nodes = [];
    return super.prepend(...children)
  }
};

var atRule = AtRule$3;
AtRule$3.default = AtRule$3;

Container$5.registerAtRule(AtRule$3);

let Container$4 = container$1;

let LazyResult$3, Processor$2;

let Root$5 = class Root extends Container$4 {
  constructor(defaults) {
    super(defaults);
    this.type = 'root';
    if (!this.nodes) this.nodes = [];
  }

  removeChild(child, ignore) {
    let index = this.index(child);

    if (!ignore && index === 0 && this.nodes.length > 1) {
      this.nodes[1].raws.before = this.nodes[index].raws.before;
    }

    return super.removeChild(child)
  }

  normalize(child, sample, type) {
    let nodes = super.normalize(child);

    if (sample) {
      if (type === 'prepend') {
        if (this.nodes.length > 1) {
          sample.raws.before = this.nodes[1].raws.before;
        } else {
          delete sample.raws.before;
        }
      } else if (this.first !== sample) {
        for (let node of nodes) {
          node.raws.before = sample.raws.before;
        }
      }
    }

    return nodes
  }

  toResult(opts = {}) {
    let lazy = new LazyResult$3(new Processor$2(), this, opts);
    return lazy.stringify()
  }
};

Root$5.registerLazyResult = dependant => {
  LazyResult$3 = dependant;
};

Root$5.registerProcessor = dependant => {
  Processor$2 = dependant;
};

var root$2 = Root$5;
Root$5.default = Root$5;

Container$4.registerRoot(Root$5);

let list$2 = {
  split(string, separators, last) {
    let array = [];
    let current = '';
    let split = false;

    let func = 0;
    let inQuote = false;
    let prevQuote = '';
    let escape = false;

    for (let letter of string) {
      if (escape) {
        escape = false;
      } else if (letter === '\\') {
        escape = true;
      } else if (inQuote) {
        if (letter === prevQuote) {
          inQuote = false;
        }
      } else if (letter === '"' || letter === "'") {
        inQuote = true;
        prevQuote = letter;
      } else if (letter === '(') {
        func += 1;
      } else if (letter === ')') {
        if (func > 0) func -= 1;
      } else if (func === 0) {
        if (separators.includes(letter)) split = true;
      }

      if (split) {
        if (current !== '') array.push(current.trim());
        current = '';
        split = false;
      } else {
        current += letter;
      }
    }

    if (last || current !== '') array.push(current.trim());
    return array
  },

  space(string) {
    let spaces = [' ', '\n', '\t'];
    return list$2.split(string, spaces)
  },

  comma(string) {
    return list$2.split(string, [','], true)
  }
};

var list_1 = list$2;
list$2.default = list$2;

let Container$3 = container$1;
let list$1 = list_1;

let Rule$3 = class Rule extends Container$3 {
  constructor(defaults) {
    super(defaults);
    this.type = 'rule';
    if (!this.nodes) this.nodes = [];
  }

  get selectors() {
    return list$1.comma(this.selector)
  }

  set selectors(values) {
    let match = this.selector ? this.selector.match(/,\s*/) : null;
    let sep = match ? match[0] : ',' + this.raw('between', 'beforeOpen');
    this.selector = values.join(sep);
  }
};

var rule = Rule$3;
Rule$3.default = Rule$3;

Container$3.registerRule(Rule$3);

let Declaration$2 = declaration;
let tokenizer = tokenize$1;
let Comment$2 = comment$3;
let AtRule$2 = atRule;
let Root$4 = root$2;
let Rule$2 = rule;

const SAFE_COMMENT_NEIGHBOR = {
  empty: true,
  space: true
};

function findLastWithPosition(tokens) {
  for (let i = tokens.length - 1; i >= 0; i--) {
    let token = tokens[i];
    let pos = token[3] || token[2];
    if (pos) return pos
  }
}

let Parser$1 = class Parser {
  constructor(input) {
    this.input = input;

    this.root = new Root$4();
    this.current = this.root;
    this.spaces = '';
    this.semicolon = false;
    this.customProperty = false;

    this.createTokenizer();
    this.root.source = { input, start: { offset: 0, line: 1, column: 1 } };
  }

  createTokenizer() {
    this.tokenizer = tokenizer(this.input);
  }

  parse() {
    let token;
    while (!this.tokenizer.endOfFile()) {
      token = this.tokenizer.nextToken();

      switch (token[0]) {
        case 'space':
          this.spaces += token[1];
          break

        case ';':
          this.freeSemicolon(token);
          break

        case '}':
          this.end(token);
          break

        case 'comment':
          this.comment(token);
          break

        case 'at-word':
          this.atrule(token);
          break

        case '{':
          this.emptyRule(token);
          break

        default:
          this.other(token);
          break
      }
    }
    this.endFile();
  }

  comment(token) {
    let node = new Comment$2();
    this.init(node, token[2]);
    node.source.end = this.getPosition(token[3] || token[2]);

    let text = token[1].slice(2, -2);
    if (/^\s*$/.test(text)) {
      node.text = '';
      node.raws.left = text;
      node.raws.right = '';
    } else {
      let match = text.match(/^(\s*)([^]*\S)(\s*)$/);
      node.text = match[2];
      node.raws.left = match[1];
      node.raws.right = match[3];
    }
  }

  emptyRule(token) {
    let node = new Rule$2();
    this.init(node, token[2]);
    node.selector = '';
    node.raws.between = '';
    this.current = node;
  }

  other(start) {
    let end = false;
    let type = null;
    let colon = false;
    let bracket = null;
    let brackets = [];
    let customProperty = start[1].startsWith('--');

    let tokens = [];
    let token = start;
    while (token) {
      type = token[0];
      tokens.push(token);

      if (type === '(' || type === '[') {
        if (!bracket) bracket = token;
        brackets.push(type === '(' ? ')' : ']');
      } else if (customProperty && colon && type === '{') {
        if (!bracket) bracket = token;
        brackets.push('}');
      } else if (brackets.length === 0) {
        if (type === ';') {
          if (colon) {
            this.decl(tokens, customProperty);
            return
          } else {
            break
          }
        } else if (type === '{') {
          this.rule(tokens);
          return
        } else if (type === '}') {
          this.tokenizer.back(tokens.pop());
          end = true;
          break
        } else if (type === ':') {
          colon = true;
        }
      } else if (type === brackets[brackets.length - 1]) {
        brackets.pop();
        if (brackets.length === 0) bracket = null;
      }

      token = this.tokenizer.nextToken();
    }

    if (this.tokenizer.endOfFile()) end = true;
    if (brackets.length > 0) this.unclosedBracket(bracket);

    if (end && colon) {
      if (!customProperty) {
        while (tokens.length) {
          token = tokens[tokens.length - 1][0];
          if (token !== 'space' && token !== 'comment') break
          this.tokenizer.back(tokens.pop());
        }
      }
      this.decl(tokens, customProperty);
    } else {
      this.unknownWord(tokens);
    }
  }

  rule(tokens) {
    tokens.pop();

    let node = new Rule$2();
    this.init(node, tokens[0][2]);

    node.raws.between = this.spacesAndCommentsFromEnd(tokens);
    this.raw(node, 'selector', tokens);
    this.current = node;
  }

  decl(tokens, customProperty) {
    let node = new Declaration$2();
    this.init(node, tokens[0][2]);

    let last = tokens[tokens.length - 1];
    if (last[0] === ';') {
      this.semicolon = true;
      tokens.pop();
    }

    node.source.end = this.getPosition(
      last[3] || last[2] || findLastWithPosition(tokens)
    );

    while (tokens[0][0] !== 'word') {
      if (tokens.length === 1) this.unknownWord(tokens);
      node.raws.before += tokens.shift()[1];
    }
    node.source.start = this.getPosition(tokens[0][2]);

    node.prop = '';
    while (tokens.length) {
      let type = tokens[0][0];
      if (type === ':' || type === 'space' || type === 'comment') {
        break
      }
      node.prop += tokens.shift()[1];
    }

    node.raws.between = '';

    let token;
    while (tokens.length) {
      token = tokens.shift();

      if (token[0] === ':') {
        node.raws.between += token[1];
        break
      } else {
        if (token[0] === 'word' && /\w/.test(token[1])) {
          this.unknownWord([token]);
        }
        node.raws.between += token[1];
      }
    }

    if (node.prop[0] === '_' || node.prop[0] === '*') {
      node.raws.before += node.prop[0];
      node.prop = node.prop.slice(1);
    }

    let firstSpaces = [];
    let next;
    while (tokens.length) {
      next = tokens[0][0];
      if (next !== 'space' && next !== 'comment') break
      firstSpaces.push(tokens.shift());
    }

    this.precheckMissedSemicolon(tokens);

    for (let i = tokens.length - 1; i >= 0; i--) {
      token = tokens[i];
      if (token[1].toLowerCase() === '!important') {
        node.important = true;
        let string = this.stringFrom(tokens, i);
        string = this.spacesFromEnd(tokens) + string;
        if (string !== ' !important') node.raws.important = string;
        break
      } else if (token[1].toLowerCase() === 'important') {
        let cache = tokens.slice(0);
        let str = '';
        for (let j = i; j > 0; j--) {
          let type = cache[j][0];
          if (str.trim().indexOf('!') === 0 && type !== 'space') {
            break
          }
          str = cache.pop()[1] + str;
        }
        if (str.trim().indexOf('!') === 0) {
          node.important = true;
          node.raws.important = str;
          tokens = cache;
        }
      }

      if (token[0] !== 'space' && token[0] !== 'comment') {
        break
      }
    }

    let hasWord = tokens.some(i => i[0] !== 'space' && i[0] !== 'comment');

    if (hasWord) {
      node.raws.between += firstSpaces.map(i => i[1]).join('');
      firstSpaces = [];
    }
    this.raw(node, 'value', firstSpaces.concat(tokens), customProperty);

    if (node.value.includes(':') && !customProperty) {
      this.checkMissedSemicolon(tokens);
    }
  }

  atrule(token) {
    let node = new AtRule$2();
    node.name = token[1].slice(1);
    if (node.name === '') {
      this.unnamedAtrule(node, token);
    }
    this.init(node, token[2]);

    let type;
    let prev;
    let shift;
    let last = false;
    let open = false;
    let params = [];
    let brackets = [];

    while (!this.tokenizer.endOfFile()) {
      token = this.tokenizer.nextToken();
      type = token[0];

      if (type === '(' || type === '[') {
        brackets.push(type === '(' ? ')' : ']');
      } else if (type === '{' && brackets.length > 0) {
        brackets.push('}');
      } else if (type === brackets[brackets.length - 1]) {
        brackets.pop();
      }

      if (brackets.length === 0) {
        if (type === ';') {
          node.source.end = this.getPosition(token[2]);
          this.semicolon = true;
          break
        } else if (type === '{') {
          open = true;
          break
        } else if (type === '}') {
          if (params.length > 0) {
            shift = params.length - 1;
            prev = params[shift];
            while (prev && prev[0] === 'space') {
              prev = params[--shift];
            }
            if (prev) {
              node.source.end = this.getPosition(prev[3] || prev[2]);
            }
          }
          this.end(token);
          break
        } else {
          params.push(token);
        }
      } else {
        params.push(token);
      }

      if (this.tokenizer.endOfFile()) {
        last = true;
        break
      }
    }

    node.raws.between = this.spacesAndCommentsFromEnd(params);
    if (params.length) {
      node.raws.afterName = this.spacesAndCommentsFromStart(params);
      this.raw(node, 'params', params);
      if (last) {
        token = params[params.length - 1];
        node.source.end = this.getPosition(token[3] || token[2]);
        this.spaces = node.raws.between;
        node.raws.between = '';
      }
    } else {
      node.raws.afterName = '';
      node.params = '';
    }

    if (open) {
      node.nodes = [];
      this.current = node;
    }
  }

  end(token) {
    if (this.current.nodes && this.current.nodes.length) {
      this.current.raws.semicolon = this.semicolon;
    }
    this.semicolon = false;

    this.current.raws.after = (this.current.raws.after || '') + this.spaces;
    this.spaces = '';

    if (this.current.parent) {
      this.current.source.end = this.getPosition(token[2]);
      this.current = this.current.parent;
    } else {
      this.unexpectedClose(token);
    }
  }

  endFile() {
    if (this.current.parent) this.unclosedBlock();
    if (this.current.nodes && this.current.nodes.length) {
      this.current.raws.semicolon = this.semicolon;
    }
    this.current.raws.after = (this.current.raws.after || '') + this.spaces;
  }

  freeSemicolon(token) {
    this.spaces += token[1];
    if (this.current.nodes) {
      let prev = this.current.nodes[this.current.nodes.length - 1];
      if (prev && prev.type === 'rule' && !prev.raws.ownSemicolon) {
        prev.raws.ownSemicolon = this.spaces;
        this.spaces = '';
      }
    }
  }

  // Helpers

  getPosition(offset) {
    let pos = this.input.fromOffset(offset);
    return {
      offset,
      line: pos.line,
      column: pos.col
    }
  }

  init(node, offset) {
    this.current.push(node);
    node.source = {
      start: this.getPosition(offset),
      input: this.input
    };
    node.raws.before = this.spaces;
    this.spaces = '';
    if (node.type !== 'comment') this.semicolon = false;
  }

  raw(node, prop, tokens, customProperty) {
    let token, type;
    let length = tokens.length;
    let value = '';
    let clean = true;
    let next, prev;

    for (let i = 0; i < length; i += 1) {
      token = tokens[i];
      type = token[0];
      if (type === 'space' && i === length - 1 && !customProperty) {
        clean = false;
      } else if (type === 'comment') {
        prev = tokens[i - 1] ? tokens[i - 1][0] : 'empty';
        next = tokens[i + 1] ? tokens[i + 1][0] : 'empty';
        if (!SAFE_COMMENT_NEIGHBOR[prev] && !SAFE_COMMENT_NEIGHBOR[next]) {
          if (value.slice(-1) === ',') {
            clean = false;
          } else {
            value += token[1];
          }
        } else {
          clean = false;
        }
      } else {
        value += token[1];
      }
    }
    if (!clean) {
      let raw = tokens.reduce((all, i) => all + i[1], '');
      node.raws[prop] = { value, raw };
    }
    node[prop] = value;
  }

  spacesAndCommentsFromEnd(tokens) {
    let lastTokenType;
    let spaces = '';
    while (tokens.length) {
      lastTokenType = tokens[tokens.length - 1][0];
      if (lastTokenType !== 'space' && lastTokenType !== 'comment') break
      spaces = tokens.pop()[1] + spaces;
    }
    return spaces
  }

  spacesAndCommentsFromStart(tokens) {
    let next;
    let spaces = '';
    while (tokens.length) {
      next = tokens[0][0];
      if (next !== 'space' && next !== 'comment') break
      spaces += tokens.shift()[1];
    }
    return spaces
  }

  spacesFromEnd(tokens) {
    let lastTokenType;
    let spaces = '';
    while (tokens.length) {
      lastTokenType = tokens[tokens.length - 1][0];
      if (lastTokenType !== 'space') break
      spaces = tokens.pop()[1] + spaces;
    }
    return spaces
  }

  stringFrom(tokens, from) {
    let result = '';
    for (let i = from; i < tokens.length; i++) {
      result += tokens[i][1];
    }
    tokens.splice(from, tokens.length - from);
    return result
  }

  colon(tokens) {
    let brackets = 0;
    let token, type, prev;
    for (let [i, element] of tokens.entries()) {
      token = element;
      type = token[0];

      if (type === '(') {
        brackets += 1;
      }
      if (type === ')') {
        brackets -= 1;
      }
      if (brackets === 0 && type === ':') {
        if (!prev) {
          this.doubleColon(token);
        } else if (prev[0] === 'word' && prev[1] === 'progid') {
          continue
        } else {
          return i
        }
      }

      prev = token;
    }
    return false
  }

  // Errors

  unclosedBracket(bracket) {
    throw this.input.error(
      'Unclosed bracket',
      { offset: bracket[2] },
      { offset: bracket[2] + 1 }
    )
  }

  unknownWord(tokens) {
    throw this.input.error(
      'Unknown word',
      { offset: tokens[0][2] },
      { offset: tokens[0][2] + tokens[0][1].length }
    )
  }

  unexpectedClose(token) {
    throw this.input.error(
      'Unexpected }',
      { offset: token[2] },
      { offset: token[2] + 1 }
    )
  }

  unclosedBlock() {
    let pos = this.current.source.start;
    throw this.input.error('Unclosed block', pos.line, pos.column)
  }

  doubleColon(token) {
    throw this.input.error(
      'Double colon',
      { offset: token[2] },
      { offset: token[2] + token[1].length }
    )
  }

  unnamedAtrule(node, token) {
    throw this.input.error(
      'At-rule without name',
      { offset: token[2] },
      { offset: token[2] + token[1].length }
    )
  }

  precheckMissedSemicolon(/* tokens */) {
    // Hook for Safe Parser
  }

  checkMissedSemicolon(tokens) {
    let colon = this.colon(tokens);
    if (colon === false) return

    let founded = 0;
    let token;
    for (let j = colon - 1; j >= 0; j--) {
      token = tokens[j];
      if (token[0] !== 'space') {
        founded += 1;
        if (founded === 2) break
      }
    }
    // If the token is a word, e.g. `!important`, `red` or any other valid property's value.
    // Then we need to return the colon after that word token. [3] is the "end" colon of that word.
    // And because we need it after that one we do +1 to get the next one.
    throw this.input.error(
      'Missed semicolon',
      token[0] === 'word' ? token[3] + 1 : token[2]
    )
  }
};

var parser$1 = Parser$1;

let Container$2 = container$1;
let Parser = parser$1;
let Input$2 = input;

function parse$3(css, opts) {
  let input = new Input$2(css, opts);
  let parser = new Parser(input);
  try {
    parser.parse();
  } catch (e) {
    if (browser$1.env.NODE_ENV !== 'production') {
      if (e.name === 'CssSyntaxError' && opts && opts.from) {
        if (/\.scss$/i.test(opts.from)) {
          e.message +=
            '\nYou tried to parse SCSS with ' +
            'the standard CSS parser; ' +
            'try again with the postcss-scss parser';
        } else if (/\.sass/i.test(opts.from)) {
          e.message +=
            '\nYou tried to parse Sass with ' +
            'the standard CSS parser; ' +
            'try again with the postcss-sass parser';
        } else if (/\.less$/i.test(opts.from)) {
          e.message +=
            '\nYou tried to parse Less with ' +
            'the standard CSS parser; ' +
            'try again with the postcss-less parser';
        }
      }
    }
    throw e
  }

  return parser.root
}

var parse_1 = parse$3;
parse$3.default = parse$3;

Container$2.registerParse(parse$3);

let { isClean, my } = symbols;
let MapGenerator$1 = mapGenerator;
let stringify$2 = stringify_1;
let Container$1 = container$1;
let Document$2 = document;
let warnOnce$2 = warnOnce$3;
let Result$2 = result;
let parse$2 = parse_1;
let Root$3 = root$2;

const TYPE_TO_CLASS_NAME = {
  document: 'Document',
  root: 'Root',
  atrule: 'AtRule',
  rule: 'Rule',
  decl: 'Declaration',
  comment: 'Comment'
};

const PLUGIN_PROPS = {
  postcssPlugin: true,
  prepare: true,
  Once: true,
  Document: true,
  Root: true,
  Declaration: true,
  Rule: true,
  AtRule: true,
  Comment: true,
  DeclarationExit: true,
  RuleExit: true,
  AtRuleExit: true,
  CommentExit: true,
  RootExit: true,
  DocumentExit: true,
  OnceExit: true
};

const NOT_VISITORS = {
  postcssPlugin: true,
  prepare: true,
  Once: true
};

const CHILDREN = 0;

function isPromise(obj) {
  return typeof obj === 'object' && typeof obj.then === 'function'
}

function getEvents(node) {
  let key = false;
  let type = TYPE_TO_CLASS_NAME[node.type];
  if (node.type === 'decl') {
    key = node.prop.toLowerCase();
  } else if (node.type === 'atrule') {
    key = node.name.toLowerCase();
  }

  if (key && node.append) {
    return [
      type,
      type + '-' + key,
      CHILDREN,
      type + 'Exit',
      type + 'Exit-' + key
    ]
  } else if (key) {
    return [type, type + '-' + key, type + 'Exit', type + 'Exit-' + key]
  } else if (node.append) {
    return [type, CHILDREN, type + 'Exit']
  } else {
    return [type, type + 'Exit']
  }
}

function toStack(node) {
  let events;
  if (node.type === 'document') {
    events = ['Document', CHILDREN, 'DocumentExit'];
  } else if (node.type === 'root') {
    events = ['Root', CHILDREN, 'RootExit'];
  } else {
    events = getEvents(node);
  }

  return {
    node,
    events,
    eventIndex: 0,
    visitors: [],
    visitorIndex: 0,
    iterator: 0
  }
}

function cleanMarks(node) {
  node[isClean] = false;
  if (node.nodes) node.nodes.forEach(i => cleanMarks(i));
  return node
}

let postcss$2 = {};

let LazyResult$2 = class LazyResult {
  constructor(processor, css, opts) {
    this.stringified = false;
    this.processed = false;

    let root;
    if (
      typeof css === 'object' &&
      css !== null &&
      (css.type === 'root' || css.type === 'document')
    ) {
      root = cleanMarks(css);
    } else if (css instanceof LazyResult || css instanceof Result$2) {
      root = cleanMarks(css.root);
      if (css.map) {
        if (typeof opts.map === 'undefined') opts.map = {};
        if (!opts.map.inline) opts.map.inline = false;
        opts.map.prev = css.map;
      }
    } else {
      let parser = parse$2;
      if (opts.syntax) parser = opts.syntax.parse;
      if (opts.parser) parser = opts.parser;
      if (parser.parse) parser = parser.parse;

      try {
        root = parser(css, opts);
      } catch (error) {
        this.processed = true;
        this.error = error;
      }

      if (root && !root[my]) {
        /* c8 ignore next 2 */
        Container$1.rebuild(root);
      }
    }

    this.result = new Result$2(processor, root, opts);
    this.helpers = { ...postcss$2, result: this.result, postcss: postcss$2 };
    this.plugins = this.processor.plugins.map(plugin => {
      if (typeof plugin === 'object' && plugin.prepare) {
        return { ...plugin, ...plugin.prepare(this.result) }
      } else {
        return plugin
      }
    });
  }

  get [Symbol.toStringTag]() {
    return 'LazyResult'
  }

  get processor() {
    return this.result.processor
  }

  get opts() {
    return this.result.opts
  }

  get css() {
    return this.stringify().css
  }

  get content() {
    return this.stringify().content
  }

  get map() {
    return this.stringify().map
  }

  get root() {
    return this.sync().root
  }

  get messages() {
    return this.sync().messages
  }

  warnings() {
    return this.sync().warnings()
  }

  toString() {
    return this.css
  }

  then(onFulfilled, onRejected) {
    if (browser$1.env.NODE_ENV !== 'production') {
      if (!('from' in this.opts)) {
        warnOnce$2(
          'Without `from` option PostCSS could generate wrong source map ' +
            'and will not find Browserslist config. Set it to CSS file path ' +
            'or to `undefined` to prevent this warning.'
        );
      }
    }
    return this.async().then(onFulfilled, onRejected)
  }

  catch(onRejected) {
    return this.async().catch(onRejected)
  }

  finally(onFinally) {
    return this.async().then(onFinally, onFinally)
  }

  async() {
    if (this.error) return Promise.reject(this.error)
    if (this.processed) return Promise.resolve(this.result)
    if (!this.processing) {
      this.processing = this.runAsync();
    }
    return this.processing
  }

  sync() {
    if (this.error) throw this.error
    if (this.processed) return this.result
    this.processed = true;

    if (this.processing) {
      throw this.getAsyncError()
    }

    for (let plugin of this.plugins) {
      let promise = this.runOnRoot(plugin);
      if (isPromise(promise)) {
        throw this.getAsyncError()
      }
    }

    this.prepareVisitors();
    if (this.hasListener) {
      let root = this.result.root;
      while (!root[isClean]) {
        root[isClean] = true;
        this.walkSync(root);
      }
      if (this.listeners.OnceExit) {
        if (root.type === 'document') {
          for (let subRoot of root.nodes) {
            this.visitSync(this.listeners.OnceExit, subRoot);
          }
        } else {
          this.visitSync(this.listeners.OnceExit, root);
        }
      }
    }

    return this.result
  }

  stringify() {
    if (this.error) throw this.error
    if (this.stringified) return this.result
    this.stringified = true;

    this.sync();

    let opts = this.result.opts;
    let str = stringify$2;
    if (opts.syntax) str = opts.syntax.stringify;
    if (opts.stringifier) str = opts.stringifier;
    if (str.stringify) str = str.stringify;

    let map = new MapGenerator$1(str, this.result.root, this.result.opts);
    let data = map.generate();
    this.result.css = data[0];
    this.result.map = data[1];

    return this.result
  }

  walkSync(node) {
    node[isClean] = true;
    let events = getEvents(node);
    for (let event of events) {
      if (event === CHILDREN) {
        if (node.nodes) {
          node.each(child => {
            if (!child[isClean]) this.walkSync(child);
          });
        }
      } else {
        let visitors = this.listeners[event];
        if (visitors) {
          if (this.visitSync(visitors, node.toProxy())) return
        }
      }
    }
  }

  visitSync(visitors, node) {
    for (let [plugin, visitor] of visitors) {
      this.result.lastPlugin = plugin;
      let promise;
      try {
        promise = visitor(node, this.helpers);
      } catch (e) {
        throw this.handleError(e, node.proxyOf)
      }
      if (node.type !== 'root' && node.type !== 'document' && !node.parent) {
        return true
      }
      if (isPromise(promise)) {
        throw this.getAsyncError()
      }
    }
  }

  runOnRoot(plugin) {
    this.result.lastPlugin = plugin;
    try {
      if (typeof plugin === 'object' && plugin.Once) {
        if (this.result.root.type === 'document') {
          let roots = this.result.root.nodes.map(root =>
            plugin.Once(root, this.helpers)
          );

          if (isPromise(roots[0])) {
            return Promise.all(roots)
          }

          return roots
        }

        return plugin.Once(this.result.root, this.helpers)
      } else if (typeof plugin === 'function') {
        return plugin(this.result.root, this.result)
      }
    } catch (error) {
      throw this.handleError(error)
    }
  }

  getAsyncError() {
    throw new Error('Use process(css).then(cb) to work with async plugins')
  }

  handleError(error, node) {
    let plugin = this.result.lastPlugin;
    try {
      if (node) node.addToError(error);
      this.error = error;
      if (error.name === 'CssSyntaxError' && !error.plugin) {
        error.plugin = plugin.postcssPlugin;
        error.setMessage();
      } else if (plugin.postcssVersion) {
        if (browser$1.env.NODE_ENV !== 'production') {
          let pluginName = plugin.postcssPlugin;
          let pluginVer = plugin.postcssVersion;
          let runtimeVer = this.result.processor.version;
          let a = pluginVer.split('.');
          let b = runtimeVer.split('.');

          if (a[0] !== b[0] || parseInt(a[1]) > parseInt(b[1])) {
            // eslint-disable-next-line no-console
            console.error(
              'Unknown error from PostCSS plugin. Your current PostCSS ' +
                'version is ' +
                runtimeVer +
                ', but ' +
                pluginName +
                ' uses ' +
                pluginVer +
                '. Perhaps this is the source of the error below.'
            );
          }
        }
      }
    } catch (err) {
      /* c8 ignore next 3 */
      // eslint-disable-next-line no-console
      if (console && console.error) console.error(err);
    }
    return error
  }

  async runAsync() {
    this.plugin = 0;
    for (let i = 0; i < this.plugins.length; i++) {
      let plugin = this.plugins[i];
      let promise = this.runOnRoot(plugin);
      if (isPromise(promise)) {
        try {
          await promise;
        } catch (error) {
          throw this.handleError(error)
        }
      }
    }

    this.prepareVisitors();
    if (this.hasListener) {
      let root = this.result.root;
      while (!root[isClean]) {
        root[isClean] = true;
        let stack = [toStack(root)];
        while (stack.length > 0) {
          let promise = this.visitTick(stack);
          if (isPromise(promise)) {
            try {
              await promise;
            } catch (e) {
              let node = stack[stack.length - 1].node;
              throw this.handleError(e, node)
            }
          }
        }
      }

      if (this.listeners.OnceExit) {
        for (let [plugin, visitor] of this.listeners.OnceExit) {
          this.result.lastPlugin = plugin;
          try {
            if (root.type === 'document') {
              let roots = root.nodes.map(subRoot =>
                visitor(subRoot, this.helpers)
              );

              await Promise.all(roots);
            } else {
              await visitor(root, this.helpers);
            }
          } catch (e) {
            throw this.handleError(e)
          }
        }
      }
    }

    this.processed = true;
    return this.stringify()
  }

  prepareVisitors() {
    this.listeners = {};
    let add = (plugin, type, cb) => {
      if (!this.listeners[type]) this.listeners[type] = [];
      this.listeners[type].push([plugin, cb]);
    };
    for (let plugin of this.plugins) {
      if (typeof plugin === 'object') {
        for (let event in plugin) {
          if (!PLUGIN_PROPS[event] && /^[A-Z]/.test(event)) {
            throw new Error(
              `Unknown event ${event} in ${plugin.postcssPlugin}. ` +
                `Try to update PostCSS (${this.processor.version} now).`
            )
          }
          if (!NOT_VISITORS[event]) {
            if (typeof plugin[event] === 'object') {
              for (let filter in plugin[event]) {
                if (filter === '*') {
                  add(plugin, event, plugin[event][filter]);
                } else {
                  add(
                    plugin,
                    event + '-' + filter.toLowerCase(),
                    plugin[event][filter]
                  );
                }
              }
            } else if (typeof plugin[event] === 'function') {
              add(plugin, event, plugin[event]);
            }
          }
        }
      }
    }
    this.hasListener = Object.keys(this.listeners).length > 0;
  }

  visitTick(stack) {
    let visit = stack[stack.length - 1];
    let { node, visitors } = visit;

    if (node.type !== 'root' && node.type !== 'document' && !node.parent) {
      stack.pop();
      return
    }

    if (visitors.length > 0 && visit.visitorIndex < visitors.length) {
      let [plugin, visitor] = visitors[visit.visitorIndex];
      visit.visitorIndex += 1;
      if (visit.visitorIndex === visitors.length) {
        visit.visitors = [];
        visit.visitorIndex = 0;
      }
      this.result.lastPlugin = plugin;
      try {
        return visitor(node.toProxy(), this.helpers)
      } catch (e) {
        throw this.handleError(e, node)
      }
    }

    if (visit.iterator !== 0) {
      let iterator = visit.iterator;
      let child;
      while ((child = node.nodes[node.indexes[iterator]])) {
        node.indexes[iterator] += 1;
        if (!child[isClean]) {
          child[isClean] = true;
          stack.push(toStack(child));
          return
        }
      }
      visit.iterator = 0;
      delete node.indexes[iterator];
    }

    let events = visit.events;
    while (visit.eventIndex < events.length) {
      let event = events[visit.eventIndex];
      visit.eventIndex += 1;
      if (event === CHILDREN) {
        if (node.nodes && node.nodes.length) {
          node[isClean] = true;
          visit.iterator = node.getIterator();
        }
        return
      } else if (this.listeners[event]) {
        visit.visitors = this.listeners[event];
        return
      }
    }
    stack.pop();
  }
};

LazyResult$2.registerPostcss = dependant => {
  postcss$2 = dependant;
};

var lazyResult = LazyResult$2;
LazyResult$2.default = LazyResult$2;

Root$3.registerLazyResult(LazyResult$2);
Document$2.registerLazyResult(LazyResult$2);

let MapGenerator = mapGenerator;
let stringify$1 = stringify_1;
let warnOnce$1 = warnOnce$3;
let parse$1 = parse_1;
const Result$1 = result;

let NoWorkResult$1 = class NoWorkResult {
  constructor(processor, css, opts) {
    css = css.toString();
    this.stringified = false;

    this._processor = processor;
    this._css = css;
    this._opts = opts;
    this._map = undefined;
    let root;

    let str = stringify$1;
    this.result = new Result$1(this._processor, root, this._opts);
    this.result.css = css;

    let self = this;
    Object.defineProperty(this.result, 'root', {
      get() {
        return self.root
      }
    });

    let map = new MapGenerator(str, root, this._opts, css);
    if (map.isMap()) {
      let [generatedCSS, generatedMap] = map.generate();
      if (generatedCSS) {
        this.result.css = generatedCSS;
      }
      if (generatedMap) {
        this.result.map = generatedMap;
      }
    }
  }

  get [Symbol.toStringTag]() {
    return 'NoWorkResult'
  }

  get processor() {
    return this.result.processor
  }

  get opts() {
    return this.result.opts
  }

  get css() {
    return this.result.css
  }

  get content() {
    return this.result.css
  }

  get map() {
    return this.result.map
  }

  get root() {
    if (this._root) {
      return this._root
    }

    let root;
    let parser = parse$1;

    try {
      root = parser(this._css, this._opts);
    } catch (error) {
      this.error = error;
    }

    if (this.error) {
      throw this.error
    } else {
      this._root = root;
      return root
    }
  }

  get messages() {
    return []
  }

  warnings() {
    return []
  }

  toString() {
    return this._css
  }

  then(onFulfilled, onRejected) {
    if (browser$1.env.NODE_ENV !== 'production') {
      if (!('from' in this._opts)) {
        warnOnce$1(
          'Without `from` option PostCSS could generate wrong source map ' +
            'and will not find Browserslist config. Set it to CSS file path ' +
            'or to `undefined` to prevent this warning.'
        );
      }
    }

    return this.async().then(onFulfilled, onRejected)
  }

  catch(onRejected) {
    return this.async().catch(onRejected)
  }

  finally(onFinally) {
    return this.async().then(onFinally, onFinally)
  }

  async() {
    if (this.error) return Promise.reject(this.error)
    return Promise.resolve(this.result)
  }

  sync() {
    if (this.error) throw this.error
    return this.result
  }
};

var noWorkResult = NoWorkResult$1;
NoWorkResult$1.default = NoWorkResult$1;

let NoWorkResult = noWorkResult;
let LazyResult$1 = lazyResult;
let Document$1 = document;
let Root$2 = root$2;

let Processor$1 = class Processor {
  constructor(plugins = []) {
    this.version = '8.4.21';
    this.plugins = this.normalize(plugins);
  }

  use(plugin) {
    this.plugins = this.plugins.concat(this.normalize([plugin]));
    return this
  }

  process(css, opts = {}) {
    if (
      this.plugins.length === 0 &&
      typeof opts.parser === 'undefined' &&
      typeof opts.stringifier === 'undefined' &&
      typeof opts.syntax === 'undefined'
    ) {
      return new NoWorkResult(this, css, opts)
    } else {
      return new LazyResult$1(this, css, opts)
    }
  }

  normalize(plugins) {
    let normalized = [];
    for (let i of plugins) {
      if (i.postcss === true) {
        i = i();
      } else if (i.postcss) {
        i = i.postcss;
      }

      if (typeof i === 'object' && Array.isArray(i.plugins)) {
        normalized = normalized.concat(i.plugins);
      } else if (typeof i === 'object' && i.postcssPlugin) {
        normalized.push(i);
      } else if (typeof i === 'function') {
        normalized.push(i);
      } else if (typeof i === 'object' && (i.parse || i.stringify)) {
        if (browser$1.env.NODE_ENV !== 'production') {
          throw new Error(
            'PostCSS syntaxes cannot be used as plugins. Instead, please use ' +
              'one of the syntax/parser/stringifier options as outlined ' +
              'in your PostCSS runner documentation.'
          )
        }
      } else {
        throw new Error(i + ' is not a PostCSS plugin')
      }
    }
    return normalized
  }
};

var processor$1 = Processor$1;
Processor$1.default = Processor$1;

Root$2.registerProcessor(Processor$1);
Document$1.registerProcessor(Processor$1);

let Declaration$1 = declaration;
let PreviousMap = previousMap;
let Comment$1 = comment$3;
let AtRule$1 = atRule;
let Input$1 = input;
let Root$1 = root$2;
let Rule$1 = rule;

function fromJSON$1(json, inputs) {
  if (Array.isArray(json)) return json.map(n => fromJSON$1(n))

  let { inputs: ownInputs, ...defaults } = json;
  if (ownInputs) {
    inputs = [];
    for (let input of ownInputs) {
      let inputHydrated = { ...input, __proto__: Input$1.prototype };
      if (inputHydrated.map) {
        inputHydrated.map = {
          ...inputHydrated.map,
          __proto__: PreviousMap.prototype
        };
      }
      inputs.push(inputHydrated);
    }
  }
  if (defaults.nodes) {
    defaults.nodes = json.nodes.map(n => fromJSON$1(n, inputs));
  }
  if (defaults.source) {
    let { inputId, ...source } = defaults.source;
    defaults.source = source;
    if (inputId != null) {
      defaults.source.input = inputs[inputId];
    }
  }
  if (defaults.type === 'root') {
    return new Root$1(defaults)
  } else if (defaults.type === 'decl') {
    return new Declaration$1(defaults)
  } else if (defaults.type === 'rule') {
    return new Rule$1(defaults)
  } else if (defaults.type === 'comment') {
    return new Comment$1(defaults)
  } else if (defaults.type === 'atrule') {
    return new AtRule$1(defaults)
  } else {
    throw new Error('Unknown node type: ' + json.type)
  }
}

var fromJSON_1 = fromJSON$1;
fromJSON$1.default = fromJSON$1;

let CssSyntaxError = cssSyntaxError;
let Declaration = declaration;
let LazyResult = lazyResult;
let Container = container$1;
let Processor = processor$1;
let stringify = stringify_1;
let fromJSON = fromJSON_1;
let Document = document;
let Warning = warning;
let Comment = comment$3;
let AtRule = atRule;
let Result = result;
let Input = input;
let parse = parse_1;
let list = list_1;
let Rule = rule;
let Root = root$2;
let Node = node$2;

function postcss(...plugins) {
  if (plugins.length === 1 && Array.isArray(plugins[0])) {
    plugins = plugins[0];
  }
  return new Processor(plugins)
}

postcss.plugin = function plugin(name, initializer) {
  let warningPrinted = false;
  function creator(...args) {
    // eslint-disable-next-line no-console
    if (console && console.warn && !warningPrinted) {
      warningPrinted = true;
      // eslint-disable-next-line no-console
      console.warn(
        name +
          ': postcss.plugin was deprecated. Migration guide:\n' +
          'https://evilmartians.com/chronicles/postcss-8-plugin-migration'
      );
      if (browser$1.env.LANG && browser$1.env.LANG.startsWith('cn')) {
        /* c8 ignore next 7 */
        // eslint-disable-next-line no-console
        console.warn(
          name +
            ': 里面 postcss.plugin 被弃用. 迁移指南:\n' +
            'https://www.w3ctech.com/topic/2226'
        );
      }
    }
    let transformer = initializer(...args);
    transformer.postcssPlugin = name;
    transformer.postcssVersion = new Processor().version;
    return transformer
  }

  let cache;
  Object.defineProperty(creator, 'postcss', {
    get() {
      if (!cache) cache = creator();
      return cache
    }
  });

  creator.process = function (css, processOpts, pluginOpts) {
    return postcss([creator(pluginOpts)]).process(css, processOpts)
  };

  return creator
};

postcss.stringify = stringify;
postcss.parse = parse;
postcss.fromJSON = fromJSON;
postcss.list = list;

postcss.comment = defaults => new Comment(defaults);
postcss.atRule = defaults => new AtRule(defaults);
postcss.decl = defaults => new Declaration(defaults);
postcss.rule = defaults => new Rule(defaults);
postcss.root = defaults => new Root(defaults);
postcss.document = defaults => new Document(defaults);

postcss.CssSyntaxError = CssSyntaxError;
postcss.Declaration = Declaration;
postcss.Container = Container;
postcss.Processor = Processor;
postcss.Document = Document;
postcss.Comment = Comment;
postcss.Warning = Warning;
postcss.AtRule = AtRule;
postcss.Result = Result;
postcss.Input = Input;
postcss.Rule = Rule;
postcss.Root = Root;
postcss.Node = Node;

LazyResult.registerPostcss(postcss);

var postcss_1 = postcss;
postcss.default = postcss;

var postcss$1 = postcss_1;

postcss$1.stringify;
postcss$1.fromJSON;
postcss$1.plugin;
postcss$1.parse;
postcss$1.list;

postcss$1.document;
postcss$1.comment;
postcss$1.atRule;
postcss$1.rule;
postcss$1.decl;
postcss$1.root;

postcss$1.CssSyntaxError;
postcss$1.Declaration;
postcss$1.Container;
postcss$1.Processor;
postcss$1.Document;
postcss$1.Comment;
postcss$1.Warning;
postcss$1.AtRule;
postcss$1.Result;
postcss$1.Input;
postcss$1.Rule;
postcss$1.Root;
postcss$1.Node;

const trimPlugin = () => {
  return {
    postcssPlugin: "vue-sfc-trim",
    Once(root) {
      root.walk(({ type, raws }) => {
        if (type === "rule" || type === "atrule") {
          if (raws.before)
            raws.before = "\n";
          if ("after" in raws && raws.after)
            raws.after = "\n";
        }
      });
    }
  };
};
trimPlugin.postcss = true;
var trimPlugin$1 = trimPlugin;

var distExports = {};
var dist = {
  get exports(){ return distExports; },
  set exports(v){ distExports = v; },
};

var processorExports = {};
var processor = {
  get exports(){ return processorExports; },
  set exports(v){ processorExports = v; },
};

var parserExports = {};
var parser = {
  get exports(){ return parserExports; },
  set exports(v){ parserExports = v; },
};

var rootExports = {};
var root$1 = {
  get exports(){ return rootExports; },
  set exports(v){ rootExports = v; },
};

var containerExports = {};
var container = {
  get exports(){ return containerExports; },
  set exports(v){ containerExports = v; },
};

var nodeExports = {};
var node$1 = {
  get exports(){ return nodeExports; },
  set exports(v){ nodeExports = v; },
};

var util$6 = {};

var unescExports = {};
var unesc = {
  get exports(){ return unescExports; },
  set exports(v){ unescExports = v; },
};

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = unesc;

	// Many thanks for this post which made this migration much easier.
	// https://mathiasbynens.be/notes/css-escapes

	/**
	 * 
	 * @param {string} str 
	 * @returns {[string, number]|undefined}
	 */
	function gobbleHex(str) {
	  var lower = str.toLowerCase();
	  var hex = '';
	  var spaceTerminated = false;

	  for (var i = 0; i < 6 && lower[i] !== undefined; i++) {
	    var code = lower.charCodeAt(i); // check to see if we are dealing with a valid hex char [a-f|0-9]

	    var valid = code >= 97 && code <= 102 || code >= 48 && code <= 57; // https://drafts.csswg.org/css-syntax/#consume-escaped-code-point

	    spaceTerminated = code === 32;

	    if (!valid) {
	      break;
	    }

	    hex += lower[i];
	  }

	  if (hex.length === 0) {
	    return undefined;
	  }

	  var codePoint = parseInt(hex, 16);
	  var isSurrogate = codePoint >= 0xD800 && codePoint <= 0xDFFF; // Add special case for
	  // "If this number is zero, or is for a surrogate, or is greater than the maximum allowed code point"
	  // https://drafts.csswg.org/css-syntax/#maximum-allowed-code-point

	  if (isSurrogate || codePoint === 0x0000 || codePoint > 0x10FFFF) {
	    return ["\uFFFD", hex.length + (spaceTerminated ? 1 : 0)];
	  }

	  return [String.fromCodePoint(codePoint), hex.length + (spaceTerminated ? 1 : 0)];
	}

	var CONTAINS_ESCAPE = /\\/;

	function unesc(str) {
	  var needToProcess = CONTAINS_ESCAPE.test(str);

	  if (!needToProcess) {
	    return str;
	  }

	  var ret = "";

	  for (var i = 0; i < str.length; i++) {
	    if (str[i] === "\\") {
	      var gobbled = gobbleHex(str.slice(i + 1, i + 7));

	      if (gobbled !== undefined) {
	        ret += gobbled[0];
	        i += gobbled[1];
	        continue;
	      } // Retain a pair of \\ if double escaped `\\\\`
	      // https://github.com/postcss/postcss-selector-parser/commit/268c9a7656fb53f543dc620aa5b73a30ec3ff20e


	      if (str[i + 1] === "\\") {
	        ret += "\\";
	        i++;
	        continue;
	      } // if \\ is at the end of the string retain it
	      // https://github.com/postcss/postcss-selector-parser/commit/01a6b346e3612ce1ab20219acc26abdc259ccefb


	      if (str.length === i + 1) {
	        ret += str[i];
	      }

	      continue;
	    }

	    ret += str[i];
	  }

	  return ret;
	}

	module.exports = exports.default;
} (unesc, unescExports));

var getPropExports = {};
var getProp = {
  get exports(){ return getPropExports; },
  set exports(v){ getPropExports = v; },
};

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = getProp;

	function getProp(obj) {
	  for (var _len = arguments.length, props = new Array(_len > 1 ? _len - 1 : 0), _key = 1; _key < _len; _key++) {
	    props[_key - 1] = arguments[_key];
	  }

	  while (props.length > 0) {
	    var prop = props.shift();

	    if (!obj[prop]) {
	      return undefined;
	    }

	    obj = obj[prop];
	  }

	  return obj;
	}

	module.exports = exports.default;
} (getProp, getPropExports));

var ensureObjectExports = {};
var ensureObject = {
  get exports(){ return ensureObjectExports; },
  set exports(v){ ensureObjectExports = v; },
};

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = ensureObject;

	function ensureObject(obj) {
	  for (var _len = arguments.length, props = new Array(_len > 1 ? _len - 1 : 0), _key = 1; _key < _len; _key++) {
	    props[_key - 1] = arguments[_key];
	  }

	  while (props.length > 0) {
	    var prop = props.shift();

	    if (!obj[prop]) {
	      obj[prop] = {};
	    }

	    obj = obj[prop];
	  }
	}

	module.exports = exports.default;
} (ensureObject, ensureObjectExports));

var stripCommentsExports = {};
var stripComments = {
  get exports(){ return stripCommentsExports; },
  set exports(v){ stripCommentsExports = v; },
};

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = stripComments;

	function stripComments(str) {
	  var s = "";
	  var commentStart = str.indexOf("/*");
	  var lastEnd = 0;

	  while (commentStart >= 0) {
	    s = s + str.slice(lastEnd, commentStart);
	    var commentEnd = str.indexOf("*/", commentStart + 2);

	    if (commentEnd < 0) {
	      return s;
	    }

	    lastEnd = commentEnd + 2;
	    commentStart = str.indexOf("/*", lastEnd);
	  }

	  s = s + str.slice(lastEnd);
	  return s;
	}

	module.exports = exports.default;
} (stripComments, stripCommentsExports));

util$6.__esModule = true;
util$6.stripComments = util$6.ensureObject = util$6.getProp = util$6.unesc = void 0;

var _unesc = _interopRequireDefault$1(unescExports);

util$6.unesc = _unesc["default"];

var _getProp = _interopRequireDefault$1(getPropExports);

util$6.getProp = _getProp["default"];

var _ensureObject = _interopRequireDefault$1(ensureObjectExports);

util$6.ensureObject = _ensureObject["default"];

var _stripComments = _interopRequireDefault$1(stripCommentsExports);

util$6.stripComments = _stripComments["default"];

function _interopRequireDefault$1(obj) { return obj && obj.__esModule ? obj : { "default": obj }; }

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = void 0;

	var _util = util$6;

	function _defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ("value" in descriptor) descriptor.writable = true; Object.defineProperty(target, descriptor.key, descriptor); } }

	function _createClass(Constructor, protoProps, staticProps) { if (protoProps) _defineProperties(Constructor.prototype, protoProps); if (staticProps) _defineProperties(Constructor, staticProps); return Constructor; }

	var cloneNode = function cloneNode(obj, parent) {
	  if (typeof obj !== 'object' || obj === null) {
	    return obj;
	  }

	  var cloned = new obj.constructor();

	  for (var i in obj) {
	    if (!obj.hasOwnProperty(i)) {
	      continue;
	    }

	    var value = obj[i];
	    var type = typeof value;

	    if (i === 'parent' && type === 'object') {
	      if (parent) {
	        cloned[i] = parent;
	      }
	    } else if (value instanceof Array) {
	      cloned[i] = value.map(function (j) {
	        return cloneNode(j, cloned);
	      });
	    } else {
	      cloned[i] = cloneNode(value, cloned);
	    }
	  }

	  return cloned;
	};

	var Node = /*#__PURE__*/function () {
	  function Node(opts) {
	    if (opts === void 0) {
	      opts = {};
	    }

	    Object.assign(this, opts);
	    this.spaces = this.spaces || {};
	    this.spaces.before = this.spaces.before || '';
	    this.spaces.after = this.spaces.after || '';
	  }

	  var _proto = Node.prototype;

	  _proto.remove = function remove() {
	    if (this.parent) {
	      this.parent.removeChild(this);
	    }

	    this.parent = undefined;
	    return this;
	  };

	  _proto.replaceWith = function replaceWith() {
	    if (this.parent) {
	      for (var index in arguments) {
	        this.parent.insertBefore(this, arguments[index]);
	      }

	      this.remove();
	    }

	    return this;
	  };

	  _proto.next = function next() {
	    return this.parent.at(this.parent.index(this) + 1);
	  };

	  _proto.prev = function prev() {
	    return this.parent.at(this.parent.index(this) - 1);
	  };

	  _proto.clone = function clone(overrides) {
	    if (overrides === void 0) {
	      overrides = {};
	    }

	    var cloned = cloneNode(this);

	    for (var name in overrides) {
	      cloned[name] = overrides[name];
	    }

	    return cloned;
	  }
	  /**
	   * Some non-standard syntax doesn't follow normal escaping rules for css.
	   * This allows non standard syntax to be appended to an existing property
	   * by specifying the escaped value. By specifying the escaped value,
	   * illegal characters are allowed to be directly inserted into css output.
	   * @param {string} name the property to set
	   * @param {any} value the unescaped value of the property
	   * @param {string} valueEscaped optional. the escaped value of the property.
	   */
	  ;

	  _proto.appendToPropertyAndEscape = function appendToPropertyAndEscape(name, value, valueEscaped) {
	    if (!this.raws) {
	      this.raws = {};
	    }

	    var originalValue = this[name];
	    var originalEscaped = this.raws[name];
	    this[name] = originalValue + value; // this may trigger a setter that updates raws, so it has to be set first.

	    if (originalEscaped || valueEscaped !== value) {
	      this.raws[name] = (originalEscaped || originalValue) + valueEscaped;
	    } else {
	      delete this.raws[name]; // delete any escaped value that was created by the setter.
	    }
	  }
	  /**
	   * Some non-standard syntax doesn't follow normal escaping rules for css.
	   * This allows the escaped value to be specified directly, allowing illegal
	   * characters to be directly inserted into css output.
	   * @param {string} name the property to set
	   * @param {any} value the unescaped value of the property
	   * @param {string} valueEscaped the escaped value of the property.
	   */
	  ;

	  _proto.setPropertyAndEscape = function setPropertyAndEscape(name, value, valueEscaped) {
	    if (!this.raws) {
	      this.raws = {};
	    }

	    this[name] = value; // this may trigger a setter that updates raws, so it has to be set first.

	    this.raws[name] = valueEscaped;
	  }
	  /**
	   * When you want a value to passed through to CSS directly. This method
	   * deletes the corresponding raw value causing the stringifier to fallback
	   * to the unescaped value.
	   * @param {string} name the property to set.
	   * @param {any} value The value that is both escaped and unescaped.
	   */
	  ;

	  _proto.setPropertyWithoutEscape = function setPropertyWithoutEscape(name, value) {
	    this[name] = value; // this may trigger a setter that updates raws, so it has to be set first.

	    if (this.raws) {
	      delete this.raws[name];
	    }
	  }
	  /**
	   *
	   * @param {number} line The number (starting with 1)
	   * @param {number} column The column number (starting with 1)
	   */
	  ;

	  _proto.isAtPosition = function isAtPosition(line, column) {
	    if (this.source && this.source.start && this.source.end) {
	      if (this.source.start.line > line) {
	        return false;
	      }

	      if (this.source.end.line < line) {
	        return false;
	      }

	      if (this.source.start.line === line && this.source.start.column > column) {
	        return false;
	      }

	      if (this.source.end.line === line && this.source.end.column < column) {
	        return false;
	      }

	      return true;
	    }

	    return undefined;
	  };

	  _proto.stringifyProperty = function stringifyProperty(name) {
	    return this.raws && this.raws[name] || this[name];
	  };

	  _proto.valueToString = function valueToString() {
	    return String(this.stringifyProperty("value"));
	  };

	  _proto.toString = function toString() {
	    return [this.rawSpaceBefore, this.valueToString(), this.rawSpaceAfter].join('');
	  };

	  _createClass(Node, [{
	    key: "rawSpaceBefore",
	    get: function get() {
	      var rawSpace = this.raws && this.raws.spaces && this.raws.spaces.before;

	      if (rawSpace === undefined) {
	        rawSpace = this.spaces && this.spaces.before;
	      }

	      return rawSpace || "";
	    },
	    set: function set(raw) {
	      (0, _util.ensureObject)(this, "raws", "spaces");
	      this.raws.spaces.before = raw;
	    }
	  }, {
	    key: "rawSpaceAfter",
	    get: function get() {
	      var rawSpace = this.raws && this.raws.spaces && this.raws.spaces.after;

	      if (rawSpace === undefined) {
	        rawSpace = this.spaces.after;
	      }

	      return rawSpace || "";
	    },
	    set: function set(raw) {
	      (0, _util.ensureObject)(this, "raws", "spaces");
	      this.raws.spaces.after = raw;
	    }
	  }]);

	  return Node;
	}();

	exports["default"] = Node;
	module.exports = exports.default;
} (node$1, nodeExports));

var types = {};

types.__esModule = true;
types.UNIVERSAL = types.ATTRIBUTE = types.CLASS = types.COMBINATOR = types.COMMENT = types.ID = types.NESTING = types.PSEUDO = types.ROOT = types.SELECTOR = types.STRING = types.TAG = void 0;
var TAG = 'tag';
types.TAG = TAG;
var STRING = 'string';
types.STRING = STRING;
var SELECTOR = 'selector';
types.SELECTOR = SELECTOR;
var ROOT = 'root';
types.ROOT = ROOT;
var PSEUDO = 'pseudo';
types.PSEUDO = PSEUDO;
var NESTING = 'nesting';
types.NESTING = NESTING;
var ID = 'id';
types.ID = ID;
var COMMENT = 'comment';
types.COMMENT = COMMENT;
var COMBINATOR = 'combinator';
types.COMBINATOR = COMBINATOR;
var CLASS = 'class';
types.CLASS = CLASS;
var ATTRIBUTE = 'attribute';
types.ATTRIBUTE = ATTRIBUTE;
var UNIVERSAL = 'universal';
types.UNIVERSAL = UNIVERSAL;

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = void 0;

	var _node = _interopRequireDefault(nodeExports);

	var types$1 = _interopRequireWildcard(types);

	function _getRequireWildcardCache() { if (typeof WeakMap !== "function") return null; var cache = new WeakMap(); _getRequireWildcardCache = function _getRequireWildcardCache() { return cache; }; return cache; }

	function _interopRequireWildcard(obj) { if (obj && obj.__esModule) { return obj; } if (obj === null || typeof obj !== "object" && typeof obj !== "function") { return { "default": obj }; } var cache = _getRequireWildcardCache(); if (cache && cache.has(obj)) { return cache.get(obj); } var newObj = {}; var hasPropertyDescriptor = Object.defineProperty && Object.getOwnPropertyDescriptor; for (var key in obj) { if (Object.prototype.hasOwnProperty.call(obj, key)) { var desc = hasPropertyDescriptor ? Object.getOwnPropertyDescriptor(obj, key) : null; if (desc && (desc.get || desc.set)) { Object.defineProperty(newObj, key, desc); } else { newObj[key] = obj[key]; } } } newObj["default"] = obj; if (cache) { cache.set(obj, newObj); } return newObj; }

	function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { "default": obj }; }

	function _createForOfIteratorHelperLoose(o, allowArrayLike) { var it; if (typeof Symbol === "undefined" || o[Symbol.iterator] == null) { if (Array.isArray(o) || (it = _unsupportedIterableToArray(o)) || allowArrayLike && o && typeof o.length === "number") { if (it) o = it; var i = 0; return function () { if (i >= o.length) return { done: true }; return { done: false, value: o[i++] }; }; } throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } it = o[Symbol.iterator](); return it.next.bind(it); }

	function _unsupportedIterableToArray(o, minLen) { if (!o) return; if (typeof o === "string") return _arrayLikeToArray(o, minLen); var n = Object.prototype.toString.call(o).slice(8, -1); if (n === "Object" && o.constructor) n = o.constructor.name; if (n === "Map" || n === "Set") return Array.from(o); if (n === "Arguments" || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(n)) return _arrayLikeToArray(o, minLen); }

	function _arrayLikeToArray(arr, len) { if (len == null || len > arr.length) len = arr.length; for (var i = 0, arr2 = new Array(len); i < len; i++) { arr2[i] = arr[i]; } return arr2; }

	function _defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ("value" in descriptor) descriptor.writable = true; Object.defineProperty(target, descriptor.key, descriptor); } }

	function _createClass(Constructor, protoProps, staticProps) { if (protoProps) _defineProperties(Constructor.prototype, protoProps); if (staticProps) _defineProperties(Constructor, staticProps); return Constructor; }

	function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); }

	function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf || function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); }

	var Container = /*#__PURE__*/function (_Node) {
	  _inheritsLoose(Container, _Node);

	  function Container(opts) {
	    var _this;

	    _this = _Node.call(this, opts) || this;

	    if (!_this.nodes) {
	      _this.nodes = [];
	    }

	    return _this;
	  }

	  var _proto = Container.prototype;

	  _proto.append = function append(selector) {
	    selector.parent = this;
	    this.nodes.push(selector);
	    return this;
	  };

	  _proto.prepend = function prepend(selector) {
	    selector.parent = this;
	    this.nodes.unshift(selector);
	    return this;
	  };

	  _proto.at = function at(index) {
	    return this.nodes[index];
	  };

	  _proto.index = function index(child) {
	    if (typeof child === 'number') {
	      return child;
	    }

	    return this.nodes.indexOf(child);
	  };

	  _proto.removeChild = function removeChild(child) {
	    child = this.index(child);
	    this.at(child).parent = undefined;
	    this.nodes.splice(child, 1);
	    var index;

	    for (var id in this.indexes) {
	      index = this.indexes[id];

	      if (index >= child) {
	        this.indexes[id] = index - 1;
	      }
	    }

	    return this;
	  };

	  _proto.removeAll = function removeAll() {
	    for (var _iterator = _createForOfIteratorHelperLoose(this.nodes), _step; !(_step = _iterator()).done;) {
	      var node = _step.value;
	      node.parent = undefined;
	    }

	    this.nodes = [];
	    return this;
	  };

	  _proto.empty = function empty() {
	    return this.removeAll();
	  };

	  _proto.insertAfter = function insertAfter(oldNode, newNode) {
	    newNode.parent = this;
	    var oldIndex = this.index(oldNode);
	    this.nodes.splice(oldIndex + 1, 0, newNode);
	    newNode.parent = this;
	    var index;

	    for (var id in this.indexes) {
	      index = this.indexes[id];

	      if (oldIndex <= index) {
	        this.indexes[id] = index + 1;
	      }
	    }

	    return this;
	  };

	  _proto.insertBefore = function insertBefore(oldNode, newNode) {
	    newNode.parent = this;
	    var oldIndex = this.index(oldNode);
	    this.nodes.splice(oldIndex, 0, newNode);
	    newNode.parent = this;
	    var index;

	    for (var id in this.indexes) {
	      index = this.indexes[id];

	      if (index <= oldIndex) {
	        this.indexes[id] = index + 1;
	      }
	    }

	    return this;
	  };

	  _proto._findChildAtPosition = function _findChildAtPosition(line, col) {
	    var found = undefined;
	    this.each(function (node) {
	      if (node.atPosition) {
	        var foundChild = node.atPosition(line, col);

	        if (foundChild) {
	          found = foundChild;
	          return false;
	        }
	      } else if (node.isAtPosition(line, col)) {
	        found = node;
	        return false;
	      }
	    });
	    return found;
	  }
	  /**
	   * Return the most specific node at the line and column number given.
	   * The source location is based on the original parsed location, locations aren't
	   * updated as selector nodes are mutated.
	   * 
	   * Note that this location is relative to the location of the first character
	   * of the selector, and not the location of the selector in the overall document
	   * when used in conjunction with postcss.
	   *
	   * If not found, returns undefined.
	   * @param {number} line The line number of the node to find. (1-based index)
	   * @param {number} col  The column number of the node to find. (1-based index)
	   */
	  ;

	  _proto.atPosition = function atPosition(line, col) {
	    if (this.isAtPosition(line, col)) {
	      return this._findChildAtPosition(line, col) || this;
	    } else {
	      return undefined;
	    }
	  };

	  _proto._inferEndPosition = function _inferEndPosition() {
	    if (this.last && this.last.source && this.last.source.end) {
	      this.source = this.source || {};
	      this.source.end = this.source.end || {};
	      Object.assign(this.source.end, this.last.source.end);
	    }
	  };

	  _proto.each = function each(callback) {
	    if (!this.lastEach) {
	      this.lastEach = 0;
	    }

	    if (!this.indexes) {
	      this.indexes = {};
	    }

	    this.lastEach++;
	    var id = this.lastEach;
	    this.indexes[id] = 0;

	    if (!this.length) {
	      return undefined;
	    }

	    var index, result;

	    while (this.indexes[id] < this.length) {
	      index = this.indexes[id];
	      result = callback(this.at(index), index);

	      if (result === false) {
	        break;
	      }

	      this.indexes[id] += 1;
	    }

	    delete this.indexes[id];

	    if (result === false) {
	      return false;
	    }
	  };

	  _proto.walk = function walk(callback) {
	    return this.each(function (node, i) {
	      var result = callback(node, i);

	      if (result !== false && node.length) {
	        result = node.walk(callback);
	      }

	      if (result === false) {
	        return false;
	      }
	    });
	  };

	  _proto.walkAttributes = function walkAttributes(callback) {
	    var _this2 = this;

	    return this.walk(function (selector) {
	      if (selector.type === types$1.ATTRIBUTE) {
	        return callback.call(_this2, selector);
	      }
	    });
	  };

	  _proto.walkClasses = function walkClasses(callback) {
	    var _this3 = this;

	    return this.walk(function (selector) {
	      if (selector.type === types$1.CLASS) {
	        return callback.call(_this3, selector);
	      }
	    });
	  };

	  _proto.walkCombinators = function walkCombinators(callback) {
	    var _this4 = this;

	    return this.walk(function (selector) {
	      if (selector.type === types$1.COMBINATOR) {
	        return callback.call(_this4, selector);
	      }
	    });
	  };

	  _proto.walkComments = function walkComments(callback) {
	    var _this5 = this;

	    return this.walk(function (selector) {
	      if (selector.type === types$1.COMMENT) {
	        return callback.call(_this5, selector);
	      }
	    });
	  };

	  _proto.walkIds = function walkIds(callback) {
	    var _this6 = this;

	    return this.walk(function (selector) {
	      if (selector.type === types$1.ID) {
	        return callback.call(_this6, selector);
	      }
	    });
	  };

	  _proto.walkNesting = function walkNesting(callback) {
	    var _this7 = this;

	    return this.walk(function (selector) {
	      if (selector.type === types$1.NESTING) {
	        return callback.call(_this7, selector);
	      }
	    });
	  };

	  _proto.walkPseudos = function walkPseudos(callback) {
	    var _this8 = this;

	    return this.walk(function (selector) {
	      if (selector.type === types$1.PSEUDO) {
	        return callback.call(_this8, selector);
	      }
	    });
	  };

	  _proto.walkTags = function walkTags(callback) {
	    var _this9 = this;

	    return this.walk(function (selector) {
	      if (selector.type === types$1.TAG) {
	        return callback.call(_this9, selector);
	      }
	    });
	  };

	  _proto.walkUniversals = function walkUniversals(callback) {
	    var _this10 = this;

	    return this.walk(function (selector) {
	      if (selector.type === types$1.UNIVERSAL) {
	        return callback.call(_this10, selector);
	      }
	    });
	  };

	  _proto.split = function split(callback) {
	    var _this11 = this;

	    var current = [];
	    return this.reduce(function (memo, node, index) {
	      var split = callback.call(_this11, node);
	      current.push(node);

	      if (split) {
	        memo.push(current);
	        current = [];
	      } else if (index === _this11.length - 1) {
	        memo.push(current);
	      }

	      return memo;
	    }, []);
	  };

	  _proto.map = function map(callback) {
	    return this.nodes.map(callback);
	  };

	  _proto.reduce = function reduce(callback, memo) {
	    return this.nodes.reduce(callback, memo);
	  };

	  _proto.every = function every(callback) {
	    return this.nodes.every(callback);
	  };

	  _proto.some = function some(callback) {
	    return this.nodes.some(callback);
	  };

	  _proto.filter = function filter(callback) {
	    return this.nodes.filter(callback);
	  };

	  _proto.sort = function sort(callback) {
	    return this.nodes.sort(callback);
	  };

	  _proto.toString = function toString() {
	    return this.map(String).join('');
	  };

	  _createClass(Container, [{
	    key: "first",
	    get: function get() {
	      return this.at(0);
	    }
	  }, {
	    key: "last",
	    get: function get() {
	      return this.at(this.length - 1);
	    }
	  }, {
	    key: "length",
	    get: function get() {
	      return this.nodes.length;
	    }
	  }]);

	  return Container;
	}(_node["default"]);

	exports["default"] = Container;
	module.exports = exports.default;
} (container, containerExports));

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = void 0;

	var _container = _interopRequireDefault(containerExports);

	var _types = types;

	function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { "default": obj }; }

	function _defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ("value" in descriptor) descriptor.writable = true; Object.defineProperty(target, descriptor.key, descriptor); } }

	function _createClass(Constructor, protoProps, staticProps) { if (protoProps) _defineProperties(Constructor.prototype, protoProps); if (staticProps) _defineProperties(Constructor, staticProps); return Constructor; }

	function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); }

	function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf || function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); }

	var Root = /*#__PURE__*/function (_Container) {
	  _inheritsLoose(Root, _Container);

	  function Root(opts) {
	    var _this;

	    _this = _Container.call(this, opts) || this;
	    _this.type = _types.ROOT;
	    return _this;
	  }

	  var _proto = Root.prototype;

	  _proto.toString = function toString() {
	    var str = this.reduce(function (memo, selector) {
	      memo.push(String(selector));
	      return memo;
	    }, []).join(',');
	    return this.trailingComma ? str + ',' : str;
	  };

	  _proto.error = function error(message, options) {
	    if (this._error) {
	      return this._error(message, options);
	    } else {
	      return new Error(message);
	    }
	  };

	  _createClass(Root, [{
	    key: "errorGenerator",
	    set: function set(handler) {
	      this._error = handler;
	    }
	  }]);

	  return Root;
	}(_container["default"]);

	exports["default"] = Root;
	module.exports = exports.default;
} (root$1, rootExports));

var selectorExports = {};
var selector$1 = {
  get exports(){ return selectorExports; },
  set exports(v){ selectorExports = v; },
};

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = void 0;

	var _container = _interopRequireDefault(containerExports);

	var _types = types;

	function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { "default": obj }; }

	function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); }

	function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf || function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); }

	var Selector = /*#__PURE__*/function (_Container) {
	  _inheritsLoose(Selector, _Container);

	  function Selector(opts) {
	    var _this;

	    _this = _Container.call(this, opts) || this;
	    _this.type = _types.SELECTOR;
	    return _this;
	  }

	  return Selector;
	}(_container["default"]);

	exports["default"] = Selector;
	module.exports = exports.default;
} (selector$1, selectorExports));

var classNameExports = {};
var className$1 = {
  get exports(){ return classNameExports; },
  set exports(v){ classNameExports = v; },
};

/*! https://mths.be/cssesc v3.0.0 by @mathias */

var object = {};
var hasOwnProperty = object.hasOwnProperty;
var merge$2 = function merge(options, defaults) {
	if (!options) {
		return defaults;
	}
	var result = {};
	for (var key in defaults) {
		// `if (defaults.hasOwnProperty(key) { … }` is not needed here, since
		// only recognized option names are used.
		result[key] = hasOwnProperty.call(options, key) ? options[key] : defaults[key];
	}
	return result;
};

var regexAnySingleEscape = /[ -,\.\/:-@\[-\^`\{-~]/;
var regexSingleEscape = /[ -,\.\/:-@\[\]\^`\{-~]/;
var regexExcessiveSpaces = /(^|\\+)?(\\[A-F0-9]{1,6})\x20(?![a-fA-F0-9\x20])/g;

// https://mathiasbynens.be/notes/css-escapes#css
var cssesc = function cssesc(string, options) {
	options = merge$2(options, cssesc.options);
	if (options.quotes != 'single' && options.quotes != 'double') {
		options.quotes = 'single';
	}
	var quote = options.quotes == 'double' ? '"' : '\'';
	var isIdentifier = options.isIdentifier;

	var firstChar = string.charAt(0);
	var output = '';
	var counter = 0;
	var length = string.length;
	while (counter < length) {
		var character = string.charAt(counter++);
		var codePoint = character.charCodeAt();
		var value = void 0;
		// If it’s not a printable ASCII character…
		if (codePoint < 0x20 || codePoint > 0x7E) {
			if (codePoint >= 0xD800 && codePoint <= 0xDBFF && counter < length) {
				// It’s a high surrogate, and there is a next character.
				var extra = string.charCodeAt(counter++);
				if ((extra & 0xFC00) == 0xDC00) {
					// next character is low surrogate
					codePoint = ((codePoint & 0x3FF) << 10) + (extra & 0x3FF) + 0x10000;
				} else {
					// It’s an unmatched surrogate; only append this code unit, in case
					// the next code unit is the high surrogate of a surrogate pair.
					counter--;
				}
			}
			value = '\\' + codePoint.toString(16).toUpperCase() + ' ';
		} else {
			if (options.escapeEverything) {
				if (regexAnySingleEscape.test(character)) {
					value = '\\' + character;
				} else {
					value = '\\' + codePoint.toString(16).toUpperCase() + ' ';
				}
			} else if (/[\t\n\f\r\x0B]/.test(character)) {
				value = '\\' + codePoint.toString(16).toUpperCase() + ' ';
			} else if (character == '\\' || !isIdentifier && (character == '"' && quote == character || character == '\'' && quote == character) || isIdentifier && regexSingleEscape.test(character)) {
				value = '\\' + character;
			} else {
				value = character;
			}
		}
		output += value;
	}

	if (isIdentifier) {
		if (/^-[-\d]/.test(output)) {
			output = '\\-' + output.slice(1);
		} else if (/\d/.test(firstChar)) {
			output = '\\3' + firstChar + ' ' + output.slice(1);
		}
	}

	// Remove spaces after `\HEX` escapes that are not followed by a hex digit,
	// since they’re redundant. Note that this is only possible if the escape
	// sequence isn’t preceded by an odd number of backslashes.
	output = output.replace(regexExcessiveSpaces, function ($0, $1, $2) {
		if ($1 && $1.length % 2) {
			// It’s not safe to remove the space, so don’t.
			return $0;
		}
		// Strip the space.
		return ($1 || '') + $2;
	});

	if (!isIdentifier && options.wrap) {
		return quote + output + quote;
	}
	return output;
};

// Expose default options (so they can be overridden globally).
cssesc.options = {
	'escapeEverything': false,
	'isIdentifier': false,
	'quotes': 'single',
	'wrap': false
};

cssesc.version = '3.0.0';

var cssesc_1 = cssesc;

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = void 0;

	var _cssesc = _interopRequireDefault(cssesc_1);

	var _util = util$6;

	var _node = _interopRequireDefault(nodeExports);

	var _types = types;

	function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { "default": obj }; }

	function _defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ("value" in descriptor) descriptor.writable = true; Object.defineProperty(target, descriptor.key, descriptor); } }

	function _createClass(Constructor, protoProps, staticProps) { if (protoProps) _defineProperties(Constructor.prototype, protoProps); if (staticProps) _defineProperties(Constructor, staticProps); return Constructor; }

	function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); }

	function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf || function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); }

	var ClassName = /*#__PURE__*/function (_Node) {
	  _inheritsLoose(ClassName, _Node);

	  function ClassName(opts) {
	    var _this;

	    _this = _Node.call(this, opts) || this;
	    _this.type = _types.CLASS;
	    _this._constructed = true;
	    return _this;
	  }

	  var _proto = ClassName.prototype;

	  _proto.valueToString = function valueToString() {
	    return '.' + _Node.prototype.valueToString.call(this);
	  };

	  _createClass(ClassName, [{
	    key: "value",
	    get: function get() {
	      return this._value;
	    },
	    set: function set(v) {
	      if (this._constructed) {
	        var escaped = (0, _cssesc["default"])(v, {
	          isIdentifier: true
	        });

	        if (escaped !== v) {
	          (0, _util.ensureObject)(this, "raws");
	          this.raws.value = escaped;
	        } else if (this.raws) {
	          delete this.raws.value;
	        }
	      }

	      this._value = v;
	    }
	  }]);

	  return ClassName;
	}(_node["default"]);

	exports["default"] = ClassName;
	module.exports = exports.default;
} (className$1, classNameExports));

var commentExports = {};
var comment$2 = {
  get exports(){ return commentExports; },
  set exports(v){ commentExports = v; },
};

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = void 0;

	var _node = _interopRequireDefault(nodeExports);

	var _types = types;

	function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { "default": obj }; }

	function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); }

	function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf || function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); }

	var Comment = /*#__PURE__*/function (_Node) {
	  _inheritsLoose(Comment, _Node);

	  function Comment(opts) {
	    var _this;

	    _this = _Node.call(this, opts) || this;
	    _this.type = _types.COMMENT;
	    return _this;
	  }

	  return Comment;
	}(_node["default"]);

	exports["default"] = Comment;
	module.exports = exports.default;
} (comment$2, commentExports));

var idExports = {};
var id$1 = {
  get exports(){ return idExports; },
  set exports(v){ idExports = v; },
};

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = void 0;

	var _node = _interopRequireDefault(nodeExports);

	var _types = types;

	function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { "default": obj }; }

	function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); }

	function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf || function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); }

	var ID = /*#__PURE__*/function (_Node) {
	  _inheritsLoose(ID, _Node);

	  function ID(opts) {
	    var _this;

	    _this = _Node.call(this, opts) || this;
	    _this.type = _types.ID;
	    return _this;
	  }

	  var _proto = ID.prototype;

	  _proto.valueToString = function valueToString() {
	    return '#' + _Node.prototype.valueToString.call(this);
	  };

	  return ID;
	}(_node["default"]);

	exports["default"] = ID;
	module.exports = exports.default;
} (id$1, idExports));

var tagExports = {};
var tag$1 = {
  get exports(){ return tagExports; },
  set exports(v){ tagExports = v; },
};

var namespaceExports = {};
var namespace = {
  get exports(){ return namespaceExports; },
  set exports(v){ namespaceExports = v; },
};

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = void 0;

	var _cssesc = _interopRequireDefault(cssesc_1);

	var _util = util$6;

	var _node = _interopRequireDefault(nodeExports);

	function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { "default": obj }; }

	function _defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ("value" in descriptor) descriptor.writable = true; Object.defineProperty(target, descriptor.key, descriptor); } }

	function _createClass(Constructor, protoProps, staticProps) { if (protoProps) _defineProperties(Constructor.prototype, protoProps); if (staticProps) _defineProperties(Constructor, staticProps); return Constructor; }

	function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); }

	function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf || function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); }

	var Namespace = /*#__PURE__*/function (_Node) {
	  _inheritsLoose(Namespace, _Node);

	  function Namespace() {
	    return _Node.apply(this, arguments) || this;
	  }

	  var _proto = Namespace.prototype;

	  _proto.qualifiedName = function qualifiedName(value) {
	    if (this.namespace) {
	      return this.namespaceString + "|" + value;
	    } else {
	      return value;
	    }
	  };

	  _proto.valueToString = function valueToString() {
	    return this.qualifiedName(_Node.prototype.valueToString.call(this));
	  };

	  _createClass(Namespace, [{
	    key: "namespace",
	    get: function get() {
	      return this._namespace;
	    },
	    set: function set(namespace) {
	      if (namespace === true || namespace === "*" || namespace === "&") {
	        this._namespace = namespace;

	        if (this.raws) {
	          delete this.raws.namespace;
	        }

	        return;
	      }

	      var escaped = (0, _cssesc["default"])(namespace, {
	        isIdentifier: true
	      });
	      this._namespace = namespace;

	      if (escaped !== namespace) {
	        (0, _util.ensureObject)(this, "raws");
	        this.raws.namespace = escaped;
	      } else if (this.raws) {
	        delete this.raws.namespace;
	      }
	    }
	  }, {
	    key: "ns",
	    get: function get() {
	      return this._namespace;
	    },
	    set: function set(namespace) {
	      this.namespace = namespace;
	    }
	  }, {
	    key: "namespaceString",
	    get: function get() {
	      if (this.namespace) {
	        var ns = this.stringifyProperty("namespace");

	        if (ns === true) {
	          return '';
	        } else {
	          return ns;
	        }
	      } else {
	        return '';
	      }
	    }
	  }]);

	  return Namespace;
	}(_node["default"]);

	exports["default"] = Namespace;
	module.exports = exports.default;
} (namespace, namespaceExports));

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = void 0;

	var _namespace = _interopRequireDefault(namespaceExports);

	var _types = types;

	function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { "default": obj }; }

	function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); }

	function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf || function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); }

	var Tag = /*#__PURE__*/function (_Namespace) {
	  _inheritsLoose(Tag, _Namespace);

	  function Tag(opts) {
	    var _this;

	    _this = _Namespace.call(this, opts) || this;
	    _this.type = _types.TAG;
	    return _this;
	  }

	  return Tag;
	}(_namespace["default"]);

	exports["default"] = Tag;
	module.exports = exports.default;
} (tag$1, tagExports));

var stringExports = {};
var string$1 = {
  get exports(){ return stringExports; },
  set exports(v){ stringExports = v; },
};

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = void 0;

	var _node = _interopRequireDefault(nodeExports);

	var _types = types;

	function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { "default": obj }; }

	function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); }

	function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf || function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); }

	var String = /*#__PURE__*/function (_Node) {
	  _inheritsLoose(String, _Node);

	  function String(opts) {
	    var _this;

	    _this = _Node.call(this, opts) || this;
	    _this.type = _types.STRING;
	    return _this;
	  }

	  return String;
	}(_node["default"]);

	exports["default"] = String;
	module.exports = exports.default;
} (string$1, stringExports));

var pseudoExports = {};
var pseudo$1 = {
  get exports(){ return pseudoExports; },
  set exports(v){ pseudoExports = v; },
};

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = void 0;

	var _container = _interopRequireDefault(containerExports);

	var _types = types;

	function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { "default": obj }; }

	function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); }

	function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf || function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); }

	var Pseudo = /*#__PURE__*/function (_Container) {
	  _inheritsLoose(Pseudo, _Container);

	  function Pseudo(opts) {
	    var _this;

	    _this = _Container.call(this, opts) || this;
	    _this.type = _types.PSEUDO;
	    return _this;
	  }

	  var _proto = Pseudo.prototype;

	  _proto.toString = function toString() {
	    var params = this.length ? '(' + this.map(String).join(',') + ')' : '';
	    return [this.rawSpaceBefore, this.stringifyProperty("value"), params, this.rawSpaceAfter].join('');
	  };

	  return Pseudo;
	}(_container["default"]);

	exports["default"] = Pseudo;
	module.exports = exports.default;
} (pseudo$1, pseudoExports));

var attribute$1 = {};

/**
 * For Node.js, simply re-export the core `util.deprecate` function.
 */

var node = require$$0$1.deprecate;

(function (exports) {

	exports.__esModule = true;
	exports.unescapeValue = unescapeValue;
	exports["default"] = void 0;

	var _cssesc = _interopRequireDefault(cssesc_1);

	var _unesc = _interopRequireDefault(unescExports);

	var _namespace = _interopRequireDefault(namespaceExports);

	var _types = types;

	var _CSSESC_QUOTE_OPTIONS;

	function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { "default": obj }; }

	function _defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ("value" in descriptor) descriptor.writable = true; Object.defineProperty(target, descriptor.key, descriptor); } }

	function _createClass(Constructor, protoProps, staticProps) { if (protoProps) _defineProperties(Constructor.prototype, protoProps); if (staticProps) _defineProperties(Constructor, staticProps); return Constructor; }

	function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); }

	function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf || function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); }

	var deprecate = node;

	var WRAPPED_IN_QUOTES = /^('|")([^]*)\1$/;
	var warnOfDeprecatedValueAssignment = deprecate(function () {}, "Assigning an attribute a value containing characters that might need to be escaped is deprecated. " + "Call attribute.setValue() instead.");
	var warnOfDeprecatedQuotedAssignment = deprecate(function () {}, "Assigning attr.quoted is deprecated and has no effect. Assign to attr.quoteMark instead.");
	var warnOfDeprecatedConstructor = deprecate(function () {}, "Constructing an Attribute selector with a value without specifying quoteMark is deprecated. Note: The value should be unescaped now.");

	function unescapeValue(value) {
	  var deprecatedUsage = false;
	  var quoteMark = null;
	  var unescaped = value;
	  var m = unescaped.match(WRAPPED_IN_QUOTES);

	  if (m) {
	    quoteMark = m[1];
	    unescaped = m[2];
	  }

	  unescaped = (0, _unesc["default"])(unescaped);

	  if (unescaped !== value) {
	    deprecatedUsage = true;
	  }

	  return {
	    deprecatedUsage: deprecatedUsage,
	    unescaped: unescaped,
	    quoteMark: quoteMark
	  };
	}

	function handleDeprecatedContructorOpts(opts) {
	  if (opts.quoteMark !== undefined) {
	    return opts;
	  }

	  if (opts.value === undefined) {
	    return opts;
	  }

	  warnOfDeprecatedConstructor();

	  var _unescapeValue = unescapeValue(opts.value),
	      quoteMark = _unescapeValue.quoteMark,
	      unescaped = _unescapeValue.unescaped;

	  if (!opts.raws) {
	    opts.raws = {};
	  }

	  if (opts.raws.value === undefined) {
	    opts.raws.value = opts.value;
	  }

	  opts.value = unescaped;
	  opts.quoteMark = quoteMark;
	  return opts;
	}

	var Attribute = /*#__PURE__*/function (_Namespace) {
	  _inheritsLoose(Attribute, _Namespace);

	  function Attribute(opts) {
	    var _this;

	    if (opts === void 0) {
	      opts = {};
	    }

	    _this = _Namespace.call(this, handleDeprecatedContructorOpts(opts)) || this;
	    _this.type = _types.ATTRIBUTE;
	    _this.raws = _this.raws || {};
	    Object.defineProperty(_this.raws, 'unquoted', {
	      get: deprecate(function () {
	        return _this.value;
	      }, "attr.raws.unquoted is deprecated. Call attr.value instead."),
	      set: deprecate(function () {
	        return _this.value;
	      }, "Setting attr.raws.unquoted is deprecated and has no effect. attr.value is unescaped by default now.")
	    });
	    _this._constructed = true;
	    return _this;
	  }
	  /**
	   * Returns the Attribute's value quoted such that it would be legal to use
	   * in the value of a css file. The original value's quotation setting
	   * used for stringification is left unchanged. See `setValue(value, options)`
	   * if you want to control the quote settings of a new value for the attribute.
	   *
	   * You can also change the quotation used for the current value by setting quoteMark.
	   *
	   * Options:
	   *   * quoteMark {'"' | "'" | null} - Use this value to quote the value. If this
	   *     option is not set, the original value for quoteMark will be used. If
	   *     indeterminate, a double quote is used. The legal values are:
	   *     * `null` - the value will be unquoted and characters will be escaped as necessary.
	   *     * `'` - the value will be quoted with a single quote and single quotes are escaped.
	   *     * `"` - the value will be quoted with a double quote and double quotes are escaped.
	   *   * preferCurrentQuoteMark {boolean} - if true, prefer the source quote mark
	   *     over the quoteMark option value.
	   *   * smart {boolean} - if true, will select a quote mark based on the value
	   *     and the other options specified here. See the `smartQuoteMark()`
	   *     method.
	   **/


	  var _proto = Attribute.prototype;

	  _proto.getQuotedValue = function getQuotedValue(options) {
	    if (options === void 0) {
	      options = {};
	    }

	    var quoteMark = this._determineQuoteMark(options);

	    var cssescopts = CSSESC_QUOTE_OPTIONS[quoteMark];
	    var escaped = (0, _cssesc["default"])(this._value, cssescopts);
	    return escaped;
	  };

	  _proto._determineQuoteMark = function _determineQuoteMark(options) {
	    return options.smart ? this.smartQuoteMark(options) : this.preferredQuoteMark(options);
	  }
	  /**
	   * Set the unescaped value with the specified quotation options. The value
	   * provided must not include any wrapping quote marks -- those quotes will
	   * be interpreted as part of the value and escaped accordingly.
	   */
	  ;

	  _proto.setValue = function setValue(value, options) {
	    if (options === void 0) {
	      options = {};
	    }

	    this._value = value;
	    this._quoteMark = this._determineQuoteMark(options);

	    this._syncRawValue();
	  }
	  /**
	   * Intelligently select a quoteMark value based on the value's contents. If
	   * the value is a legal CSS ident, it will not be quoted. Otherwise a quote
	   * mark will be picked that minimizes the number of escapes.
	   *
	   * If there's no clear winner, the quote mark from these options is used,
	   * then the source quote mark (this is inverted if `preferCurrentQuoteMark` is
	   * true). If the quoteMark is unspecified, a double quote is used.
	   *
	   * @param options This takes the quoteMark and preferCurrentQuoteMark options
	   * from the quoteValue method.
	   */
	  ;

	  _proto.smartQuoteMark = function smartQuoteMark(options) {
	    var v = this.value;
	    var numSingleQuotes = v.replace(/[^']/g, '').length;
	    var numDoubleQuotes = v.replace(/[^"]/g, '').length;

	    if (numSingleQuotes + numDoubleQuotes === 0) {
	      var escaped = (0, _cssesc["default"])(v, {
	        isIdentifier: true
	      });

	      if (escaped === v) {
	        return Attribute.NO_QUOTE;
	      } else {
	        var pref = this.preferredQuoteMark(options);

	        if (pref === Attribute.NO_QUOTE) {
	          // pick a quote mark that isn't none and see if it's smaller
	          var quote = this.quoteMark || options.quoteMark || Attribute.DOUBLE_QUOTE;
	          var opts = CSSESC_QUOTE_OPTIONS[quote];
	          var quoteValue = (0, _cssesc["default"])(v, opts);

	          if (quoteValue.length < escaped.length) {
	            return quote;
	          }
	        }

	        return pref;
	      }
	    } else if (numDoubleQuotes === numSingleQuotes) {
	      return this.preferredQuoteMark(options);
	    } else if (numDoubleQuotes < numSingleQuotes) {
	      return Attribute.DOUBLE_QUOTE;
	    } else {
	      return Attribute.SINGLE_QUOTE;
	    }
	  }
	  /**
	   * Selects the preferred quote mark based on the options and the current quote mark value.
	   * If you want the quote mark to depend on the attribute value, call `smartQuoteMark(opts)`
	   * instead.
	   */
	  ;

	  _proto.preferredQuoteMark = function preferredQuoteMark(options) {
	    var quoteMark = options.preferCurrentQuoteMark ? this.quoteMark : options.quoteMark;

	    if (quoteMark === undefined) {
	      quoteMark = options.preferCurrentQuoteMark ? options.quoteMark : this.quoteMark;
	    }

	    if (quoteMark === undefined) {
	      quoteMark = Attribute.DOUBLE_QUOTE;
	    }

	    return quoteMark;
	  };

	  _proto._syncRawValue = function _syncRawValue() {
	    var rawValue = (0, _cssesc["default"])(this._value, CSSESC_QUOTE_OPTIONS[this.quoteMark]);

	    if (rawValue === this._value) {
	      if (this.raws) {
	        delete this.raws.value;
	      }
	    } else {
	      this.raws.value = rawValue;
	    }
	  };

	  _proto._handleEscapes = function _handleEscapes(prop, value) {
	    if (this._constructed) {
	      var escaped = (0, _cssesc["default"])(value, {
	        isIdentifier: true
	      });

	      if (escaped !== value) {
	        this.raws[prop] = escaped;
	      } else {
	        delete this.raws[prop];
	      }
	    }
	  };

	  _proto._spacesFor = function _spacesFor(name) {
	    var attrSpaces = {
	      before: '',
	      after: ''
	    };
	    var spaces = this.spaces[name] || {};
	    var rawSpaces = this.raws.spaces && this.raws.spaces[name] || {};
	    return Object.assign(attrSpaces, spaces, rawSpaces);
	  };

	  _proto._stringFor = function _stringFor(name, spaceName, concat) {
	    if (spaceName === void 0) {
	      spaceName = name;
	    }

	    if (concat === void 0) {
	      concat = defaultAttrConcat;
	    }

	    var attrSpaces = this._spacesFor(spaceName);

	    return concat(this.stringifyProperty(name), attrSpaces);
	  }
	  /**
	   * returns the offset of the attribute part specified relative to the
	   * start of the node of the output string.
	   *
	   * * "ns" - alias for "namespace"
	   * * "namespace" - the namespace if it exists.
	   * * "attribute" - the attribute name
	   * * "attributeNS" - the start of the attribute or its namespace
	   * * "operator" - the match operator of the attribute
	   * * "value" - The value (string or identifier)
	   * * "insensitive" - the case insensitivity flag;
	   * @param part One of the possible values inside an attribute.
	   * @returns -1 if the name is invalid or the value doesn't exist in this attribute.
	   */
	  ;

	  _proto.offsetOf = function offsetOf(name) {
	    var count = 1;

	    var attributeSpaces = this._spacesFor("attribute");

	    count += attributeSpaces.before.length;

	    if (name === "namespace" || name === "ns") {
	      return this.namespace ? count : -1;
	    }

	    if (name === "attributeNS") {
	      return count;
	    }

	    count += this.namespaceString.length;

	    if (this.namespace) {
	      count += 1;
	    }

	    if (name === "attribute") {
	      return count;
	    }

	    count += this.stringifyProperty("attribute").length;
	    count += attributeSpaces.after.length;

	    var operatorSpaces = this._spacesFor("operator");

	    count += operatorSpaces.before.length;
	    var operator = this.stringifyProperty("operator");

	    if (name === "operator") {
	      return operator ? count : -1;
	    }

	    count += operator.length;
	    count += operatorSpaces.after.length;

	    var valueSpaces = this._spacesFor("value");

	    count += valueSpaces.before.length;
	    var value = this.stringifyProperty("value");

	    if (name === "value") {
	      return value ? count : -1;
	    }

	    count += value.length;
	    count += valueSpaces.after.length;

	    var insensitiveSpaces = this._spacesFor("insensitive");

	    count += insensitiveSpaces.before.length;

	    if (name === "insensitive") {
	      return this.insensitive ? count : -1;
	    }

	    return -1;
	  };

	  _proto.toString = function toString() {
	    var _this2 = this;

	    var selector = [this.rawSpaceBefore, '['];
	    selector.push(this._stringFor('qualifiedAttribute', 'attribute'));

	    if (this.operator && (this.value || this.value === '')) {
	      selector.push(this._stringFor('operator'));
	      selector.push(this._stringFor('value'));
	      selector.push(this._stringFor('insensitiveFlag', 'insensitive', function (attrValue, attrSpaces) {
	        if (attrValue.length > 0 && !_this2.quoted && attrSpaces.before.length === 0 && !(_this2.spaces.value && _this2.spaces.value.after)) {
	          attrSpaces.before = " ";
	        }

	        return defaultAttrConcat(attrValue, attrSpaces);
	      }));
	    }

	    selector.push(']');
	    selector.push(this.rawSpaceAfter);
	    return selector.join('');
	  };

	  _createClass(Attribute, [{
	    key: "quoted",
	    get: function get() {
	      var qm = this.quoteMark;
	      return qm === "'" || qm === '"';
	    },
	    set: function set(value) {
	      warnOfDeprecatedQuotedAssignment();
	    }
	    /**
	     * returns a single (`'`) or double (`"`) quote character if the value is quoted.
	     * returns `null` if the value is not quoted.
	     * returns `undefined` if the quotation state is unknown (this can happen when
	     * the attribute is constructed without specifying a quote mark.)
	     */

	  }, {
	    key: "quoteMark",
	    get: function get() {
	      return this._quoteMark;
	    }
	    /**
	     * Set the quote mark to be used by this attribute's value.
	     * If the quote mark changes, the raw (escaped) value at `attr.raws.value` of the attribute
	     * value is updated accordingly.
	     *
	     * @param {"'" | '"' | null} quoteMark The quote mark or `null` if the value should be unquoted.
	     */
	    ,
	    set: function set(quoteMark) {
	      if (!this._constructed) {
	        this._quoteMark = quoteMark;
	        return;
	      }

	      if (this._quoteMark !== quoteMark) {
	        this._quoteMark = quoteMark;

	        this._syncRawValue();
	      }
	    }
	  }, {
	    key: "qualifiedAttribute",
	    get: function get() {
	      return this.qualifiedName(this.raws.attribute || this.attribute);
	    }
	  }, {
	    key: "insensitiveFlag",
	    get: function get() {
	      return this.insensitive ? 'i' : '';
	    }
	  }, {
	    key: "value",
	    get: function get() {
	      return this._value;
	    },
	    set:
	    /**
	     * Before 3.0, the value had to be set to an escaped value including any wrapped
	     * quote marks. In 3.0, the semantics of `Attribute.value` changed so that the value
	     * is unescaped during parsing and any quote marks are removed.
	     *
	     * Because the ambiguity of this semantic change, if you set `attr.value = newValue`,
	     * a deprecation warning is raised when the new value contains any characters that would
	     * require escaping (including if it contains wrapped quotes).
	     *
	     * Instead, you should call `attr.setValue(newValue, opts)` and pass options that describe
	     * how the new value is quoted.
	     */
	    function set(v) {
	      if (this._constructed) {
	        var _unescapeValue2 = unescapeValue(v),
	            deprecatedUsage = _unescapeValue2.deprecatedUsage,
	            unescaped = _unescapeValue2.unescaped,
	            quoteMark = _unescapeValue2.quoteMark;

	        if (deprecatedUsage) {
	          warnOfDeprecatedValueAssignment();
	        }

	        if (unescaped === this._value && quoteMark === this._quoteMark) {
	          return;
	        }

	        this._value = unescaped;
	        this._quoteMark = quoteMark;

	        this._syncRawValue();
	      } else {
	        this._value = v;
	      }
	    }
	  }, {
	    key: "insensitive",
	    get: function get() {
	      return this._insensitive;
	    }
	    /**
	     * Set the case insensitive flag.
	     * If the case insensitive flag changes, the raw (escaped) value at `attr.raws.insensitiveFlag`
	     * of the attribute is updated accordingly.
	     *
	     * @param {true | false} insensitive true if the attribute should match case-insensitively.
	     */
	    ,
	    set: function set(insensitive) {
	      if (!insensitive) {
	        this._insensitive = false; // "i" and "I" can be used in "this.raws.insensitiveFlag" to store the original notation.
	        // When setting `attr.insensitive = false` both should be erased to ensure correct serialization.

	        if (this.raws && (this.raws.insensitiveFlag === 'I' || this.raws.insensitiveFlag === 'i')) {
	          this.raws.insensitiveFlag = undefined;
	        }
	      }

	      this._insensitive = insensitive;
	    }
	  }, {
	    key: "attribute",
	    get: function get() {
	      return this._attribute;
	    },
	    set: function set(name) {
	      this._handleEscapes("attribute", name);

	      this._attribute = name;
	    }
	  }]);

	  return Attribute;
	}(_namespace["default"]);

	exports["default"] = Attribute;
	Attribute.NO_QUOTE = null;
	Attribute.SINGLE_QUOTE = "'";
	Attribute.DOUBLE_QUOTE = '"';
	var CSSESC_QUOTE_OPTIONS = (_CSSESC_QUOTE_OPTIONS = {
	  "'": {
	    quotes: 'single',
	    wrap: true
	  },
	  '"': {
	    quotes: 'double',
	    wrap: true
	  }
	}, _CSSESC_QUOTE_OPTIONS[null] = {
	  isIdentifier: true
	}, _CSSESC_QUOTE_OPTIONS);

	function defaultAttrConcat(attrValue, attrSpaces) {
	  return "" + attrSpaces.before + attrValue + attrSpaces.after;
	}
} (attribute$1));

var universalExports = {};
var universal$1 = {
  get exports(){ return universalExports; },
  set exports(v){ universalExports = v; },
};

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = void 0;

	var _namespace = _interopRequireDefault(namespaceExports);

	var _types = types;

	function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { "default": obj }; }

	function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); }

	function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf || function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); }

	var Universal = /*#__PURE__*/function (_Namespace) {
	  _inheritsLoose(Universal, _Namespace);

	  function Universal(opts) {
	    var _this;

	    _this = _Namespace.call(this, opts) || this;
	    _this.type = _types.UNIVERSAL;
	    _this.value = '*';
	    return _this;
	  }

	  return Universal;
	}(_namespace["default"]);

	exports["default"] = Universal;
	module.exports = exports.default;
} (universal$1, universalExports));

var combinatorExports = {};
var combinator$2 = {
  get exports(){ return combinatorExports; },
  set exports(v){ combinatorExports = v; },
};

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = void 0;

	var _node = _interopRequireDefault(nodeExports);

	var _types = types;

	function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { "default": obj }; }

	function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); }

	function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf || function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); }

	var Combinator = /*#__PURE__*/function (_Node) {
	  _inheritsLoose(Combinator, _Node);

	  function Combinator(opts) {
	    var _this;

	    _this = _Node.call(this, opts) || this;
	    _this.type = _types.COMBINATOR;
	    return _this;
	  }

	  return Combinator;
	}(_node["default"]);

	exports["default"] = Combinator;
	module.exports = exports.default;
} (combinator$2, combinatorExports));

var nestingExports = {};
var nesting$1 = {
  get exports(){ return nestingExports; },
  set exports(v){ nestingExports = v; },
};

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = void 0;

	var _node = _interopRequireDefault(nodeExports);

	var _types = types;

	function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { "default": obj }; }

	function _inheritsLoose(subClass, superClass) { subClass.prototype = Object.create(superClass.prototype); subClass.prototype.constructor = subClass; _setPrototypeOf(subClass, superClass); }

	function _setPrototypeOf(o, p) { _setPrototypeOf = Object.setPrototypeOf || function _setPrototypeOf(o, p) { o.__proto__ = p; return o; }; return _setPrototypeOf(o, p); }

	var Nesting = /*#__PURE__*/function (_Node) {
	  _inheritsLoose(Nesting, _Node);

	  function Nesting(opts) {
	    var _this;

	    _this = _Node.call(this, opts) || this;
	    _this.type = _types.NESTING;
	    _this.value = '&';
	    return _this;
	  }

	  return Nesting;
	}(_node["default"]);

	exports["default"] = Nesting;
	module.exports = exports.default;
} (nesting$1, nestingExports));

var sortAscendingExports = {};
var sortAscending = {
  get exports(){ return sortAscendingExports; },
  set exports(v){ sortAscendingExports = v; },
};

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = sortAscending;

	function sortAscending(list) {
	  return list.sort(function (a, b) {
	    return a - b;
	  });
	}
	module.exports = exports.default;
} (sortAscending, sortAscendingExports));

var tokenize = {};

var tokenTypes = {};

tokenTypes.__esModule = true;
tokenTypes.combinator = tokenTypes.word = tokenTypes.comment = tokenTypes.str = tokenTypes.tab = tokenTypes.newline = tokenTypes.feed = tokenTypes.cr = tokenTypes.backslash = tokenTypes.bang = tokenTypes.slash = tokenTypes.doubleQuote = tokenTypes.singleQuote = tokenTypes.space = tokenTypes.greaterThan = tokenTypes.pipe = tokenTypes.equals = tokenTypes.plus = tokenTypes.caret = tokenTypes.tilde = tokenTypes.dollar = tokenTypes.closeSquare = tokenTypes.openSquare = tokenTypes.closeParenthesis = tokenTypes.openParenthesis = tokenTypes.semicolon = tokenTypes.colon = tokenTypes.comma = tokenTypes.at = tokenTypes.asterisk = tokenTypes.ampersand = void 0;
var ampersand = 38; // `&`.charCodeAt(0);

tokenTypes.ampersand = ampersand;
var asterisk = 42; // `*`.charCodeAt(0);

tokenTypes.asterisk = asterisk;
var at = 64; // `@`.charCodeAt(0);

tokenTypes.at = at;
var comma$1 = 44; // `,`.charCodeAt(0);

tokenTypes.comma = comma$1;
var colon = 58; // `:`.charCodeAt(0);

tokenTypes.colon = colon;
var semicolon$1 = 59; // `;`.charCodeAt(0);

tokenTypes.semicolon = semicolon$1;
var openParenthesis = 40; // `(`.charCodeAt(0);

tokenTypes.openParenthesis = openParenthesis;
var closeParenthesis = 41; // `)`.charCodeAt(0);

tokenTypes.closeParenthesis = closeParenthesis;
var openSquare = 91; // `[`.charCodeAt(0);

tokenTypes.openSquare = openSquare;
var closeSquare = 93; // `]`.charCodeAt(0);

tokenTypes.closeSquare = closeSquare;
var dollar = 36; // `$`.charCodeAt(0);

tokenTypes.dollar = dollar;
var tilde = 126; // `~`.charCodeAt(0);

tokenTypes.tilde = tilde;
var caret = 94; // `^`.charCodeAt(0);

tokenTypes.caret = caret;
var plus = 43; // `+`.charCodeAt(0);

tokenTypes.plus = plus;
var equals = 61; // `=`.charCodeAt(0);

tokenTypes.equals = equals;
var pipe = 124; // `|`.charCodeAt(0);

tokenTypes.pipe = pipe;
var greaterThan = 62; // `>`.charCodeAt(0);

tokenTypes.greaterThan = greaterThan;
var space = 32; // ` `.charCodeAt(0);

tokenTypes.space = space;
var singleQuote = 39; // `'`.charCodeAt(0);

tokenTypes.singleQuote = singleQuote;
var doubleQuote = 34; // `"`.charCodeAt(0);

tokenTypes.doubleQuote = doubleQuote;
var slash = 47; // `/`.charCodeAt(0);

tokenTypes.slash = slash;
var bang = 33; // `!`.charCodeAt(0);

tokenTypes.bang = bang;
var backslash = 92; // '\\'.charCodeAt(0);

tokenTypes.backslash = backslash;
var cr = 13; // '\r'.charCodeAt(0);

tokenTypes.cr = cr;
var feed = 12; // '\f'.charCodeAt(0);

tokenTypes.feed = feed;
var newline = 10; // '\n'.charCodeAt(0);

tokenTypes.newline = newline;
var tab = 9; // '\t'.charCodeAt(0);
// Expose aliases primarily for readability.

tokenTypes.tab = tab;
var str = singleQuote; // No good single character representation!

tokenTypes.str = str;
var comment$1 = -1;
tokenTypes.comment = comment$1;
var word = -2;
tokenTypes.word = word;
var combinator$1 = -3;
tokenTypes.combinator = combinator$1;

(function (exports) {

	exports.__esModule = true;
	exports["default"] = tokenize;
	exports.FIELDS = void 0;

	var t = _interopRequireWildcard(tokenTypes);

	var _unescapable, _wordDelimiters;

	function _getRequireWildcardCache() { if (typeof WeakMap !== "function") return null; var cache = new WeakMap(); _getRequireWildcardCache = function _getRequireWildcardCache() { return cache; }; return cache; }

	function _interopRequireWildcard(obj) { if (obj && obj.__esModule) { return obj; } if (obj === null || typeof obj !== "object" && typeof obj !== "function") { return { "default": obj }; } var cache = _getRequireWildcardCache(); if (cache && cache.has(obj)) { return cache.get(obj); } var newObj = {}; var hasPropertyDescriptor = Object.defineProperty && Object.getOwnPropertyDescriptor; for (var key in obj) { if (Object.prototype.hasOwnProperty.call(obj, key)) { var desc = hasPropertyDescriptor ? Object.getOwnPropertyDescriptor(obj, key) : null; if (desc && (desc.get || desc.set)) { Object.defineProperty(newObj, key, desc); } else { newObj[key] = obj[key]; } } } newObj["default"] = obj; if (cache) { cache.set(obj, newObj); } return newObj; }

	var unescapable = (_unescapable = {}, _unescapable[t.tab] = true, _unescapable[t.newline] = true, _unescapable[t.cr] = true, _unescapable[t.feed] = true, _unescapable);
	var wordDelimiters = (_wordDelimiters = {}, _wordDelimiters[t.space] = true, _wordDelimiters[t.tab] = true, _wordDelimiters[t.newline] = true, _wordDelimiters[t.cr] = true, _wordDelimiters[t.feed] = true, _wordDelimiters[t.ampersand] = true, _wordDelimiters[t.asterisk] = true, _wordDelimiters[t.bang] = true, _wordDelimiters[t.comma] = true, _wordDelimiters[t.colon] = true, _wordDelimiters[t.semicolon] = true, _wordDelimiters[t.openParenthesis] = true, _wordDelimiters[t.closeParenthesis] = true, _wordDelimiters[t.openSquare] = true, _wordDelimiters[t.closeSquare] = true, _wordDelimiters[t.singleQuote] = true, _wordDelimiters[t.doubleQuote] = true, _wordDelimiters[t.plus] = true, _wordDelimiters[t.pipe] = true, _wordDelimiters[t.tilde] = true, _wordDelimiters[t.greaterThan] = true, _wordDelimiters[t.equals] = true, _wordDelimiters[t.dollar] = true, _wordDelimiters[t.caret] = true, _wordDelimiters[t.slash] = true, _wordDelimiters);
	var hex = {};
	var hexChars = "0123456789abcdefABCDEF";

	for (var i = 0; i < hexChars.length; i++) {
	  hex[hexChars.charCodeAt(i)] = true;
	}
	/**
	 *  Returns the last index of the bar css word
	 * @param {string} css The string in which the word begins
	 * @param {number} start The index into the string where word's first letter occurs
	 */


	function consumeWord(css, start) {
	  var next = start;
	  var code;

	  do {
	    code = css.charCodeAt(next);

	    if (wordDelimiters[code]) {
	      return next - 1;
	    } else if (code === t.backslash) {
	      next = consumeEscape(css, next) + 1;
	    } else {
	      // All other characters are part of the word
	      next++;
	    }
	  } while (next < css.length);

	  return next - 1;
	}
	/**
	 *  Returns the last index of the escape sequence
	 * @param {string} css The string in which the sequence begins
	 * @param {number} start The index into the string where escape character (`\`) occurs.
	 */


	function consumeEscape(css, start) {
	  var next = start;
	  var code = css.charCodeAt(next + 1);

	  if (unescapable[code]) ; else if (hex[code]) {
	    var hexDigits = 0; // consume up to 6 hex chars

	    do {
	      next++;
	      hexDigits++;
	      code = css.charCodeAt(next + 1);
	    } while (hex[code] && hexDigits < 6); // if fewer than 6 hex chars, a trailing space ends the escape


	    if (hexDigits < 6 && code === t.space) {
	      next++;
	    }
	  } else {
	    // the next char is part of the current word
	    next++;
	  }

	  return next;
	}

	var FIELDS = {
	  TYPE: 0,
	  START_LINE: 1,
	  START_COL: 2,
	  END_LINE: 3,
	  END_COL: 4,
	  START_POS: 5,
	  END_POS: 6
	};
	exports.FIELDS = FIELDS;

	function tokenize(input) {
	  var tokens = [];
	  var css = input.css.valueOf();
	  var _css = css,
	      length = _css.length;
	  var offset = -1;
	  var line = 1;
	  var start = 0;
	  var end = 0;
	  var code, content, endColumn, endLine, escaped, escapePos, last, lines, next, nextLine, nextOffset, quote, tokenType;

	  function unclosed(what, fix) {
	    if (input.safe) {
	      // fyi: this is never set to true.
	      css += fix;
	      next = css.length - 1;
	    } else {
	      throw input.error('Unclosed ' + what, line, start - offset, start);
	    }
	  }

	  while (start < length) {
	    code = css.charCodeAt(start);

	    if (code === t.newline) {
	      offset = start;
	      line += 1;
	    }

	    switch (code) {
	      case t.space:
	      case t.tab:
	      case t.newline:
	      case t.cr:
	      case t.feed:
	        next = start;

	        do {
	          next += 1;
	          code = css.charCodeAt(next);

	          if (code === t.newline) {
	            offset = next;
	            line += 1;
	          }
	        } while (code === t.space || code === t.newline || code === t.tab || code === t.cr || code === t.feed);

	        tokenType = t.space;
	        endLine = line;
	        endColumn = next - offset - 1;
	        end = next;
	        break;

	      case t.plus:
	      case t.greaterThan:
	      case t.tilde:
	      case t.pipe:
	        next = start;

	        do {
	          next += 1;
	          code = css.charCodeAt(next);
	        } while (code === t.plus || code === t.greaterThan || code === t.tilde || code === t.pipe);

	        tokenType = t.combinator;
	        endLine = line;
	        endColumn = start - offset;
	        end = next;
	        break;
	      // Consume these characters as single tokens.

	      case t.asterisk:
	      case t.ampersand:
	      case t.bang:
	      case t.comma:
	      case t.equals:
	      case t.dollar:
	      case t.caret:
	      case t.openSquare:
	      case t.closeSquare:
	      case t.colon:
	      case t.semicolon:
	      case t.openParenthesis:
	      case t.closeParenthesis:
	        next = start;
	        tokenType = code;
	        endLine = line;
	        endColumn = start - offset;
	        end = next + 1;
	        break;

	      case t.singleQuote:
	      case t.doubleQuote:
	        quote = code === t.singleQuote ? "'" : '"';
	        next = start;

	        do {
	          escaped = false;
	          next = css.indexOf(quote, next + 1);

	          if (next === -1) {
	            unclosed('quote', quote);
	          }

	          escapePos = next;

	          while (css.charCodeAt(escapePos - 1) === t.backslash) {
	            escapePos -= 1;
	            escaped = !escaped;
	          }
	        } while (escaped);

	        tokenType = t.str;
	        endLine = line;
	        endColumn = start - offset;
	        end = next + 1;
	        break;

	      default:
	        if (code === t.slash && css.charCodeAt(start + 1) === t.asterisk) {
	          next = css.indexOf('*/', start + 2) + 1;

	          if (next === 0) {
	            unclosed('comment', '*/');
	          }

	          content = css.slice(start, next + 1);
	          lines = content.split('\n');
	          last = lines.length - 1;

	          if (last > 0) {
	            nextLine = line + last;
	            nextOffset = next - lines[last].length;
	          } else {
	            nextLine = line;
	            nextOffset = offset;
	          }

	          tokenType = t.comment;
	          line = nextLine;
	          endLine = nextLine;
	          endColumn = next - nextOffset;
	        } else if (code === t.slash) {
	          next = start;
	          tokenType = code;
	          endLine = line;
	          endColumn = start - offset;
	          end = next + 1;
	        } else {
	          next = consumeWord(css, start);
	          tokenType = t.word;
	          endLine = line;
	          endColumn = next - offset;
	        }

	        end = next + 1;
	        break;
	    } // Ensure that the token structure remains consistent


	    tokens.push([tokenType, // [0] Token type
	    line, // [1] Starting line
	    start - offset, // [2] Starting column
	    endLine, // [3] Ending line
	    endColumn, // [4] Ending column
	    start, // [5] Start position / Source index
	    end // [6] End position
	    ]); // Reset offset for the next token

	    if (nextOffset) {
	      offset = nextOffset;
	      nextOffset = null;
	    }

	    start = end;
	  }

	  return tokens;
	}
} (tokenize));

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = void 0;

	var _root = _interopRequireDefault(rootExports);

	var _selector = _interopRequireDefault(selectorExports);

	var _className = _interopRequireDefault(classNameExports);

	var _comment = _interopRequireDefault(commentExports);

	var _id = _interopRequireDefault(idExports);

	var _tag = _interopRequireDefault(tagExports);

	var _string = _interopRequireDefault(stringExports);

	var _pseudo = _interopRequireDefault(pseudoExports);

	var _attribute = _interopRequireWildcard(attribute$1);

	var _universal = _interopRequireDefault(universalExports);

	var _combinator = _interopRequireDefault(combinatorExports);

	var _nesting = _interopRequireDefault(nestingExports);

	var _sortAscending = _interopRequireDefault(sortAscendingExports);

	var _tokenize = _interopRequireWildcard(tokenize);

	var tokens = _interopRequireWildcard(tokenTypes);

	var types$1 = _interopRequireWildcard(types);

	var _util = util$6;

	var _WHITESPACE_TOKENS, _Object$assign;

	function _getRequireWildcardCache() { if (typeof WeakMap !== "function") return null; var cache = new WeakMap(); _getRequireWildcardCache = function _getRequireWildcardCache() { return cache; }; return cache; }

	function _interopRequireWildcard(obj) { if (obj && obj.__esModule) { return obj; } if (obj === null || typeof obj !== "object" && typeof obj !== "function") { return { "default": obj }; } var cache = _getRequireWildcardCache(); if (cache && cache.has(obj)) { return cache.get(obj); } var newObj = {}; var hasPropertyDescriptor = Object.defineProperty && Object.getOwnPropertyDescriptor; for (var key in obj) { if (Object.prototype.hasOwnProperty.call(obj, key)) { var desc = hasPropertyDescriptor ? Object.getOwnPropertyDescriptor(obj, key) : null; if (desc && (desc.get || desc.set)) { Object.defineProperty(newObj, key, desc); } else { newObj[key] = obj[key]; } } } newObj["default"] = obj; if (cache) { cache.set(obj, newObj); } return newObj; }

	function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { "default": obj }; }

	function _defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ("value" in descriptor) descriptor.writable = true; Object.defineProperty(target, descriptor.key, descriptor); } }

	function _createClass(Constructor, protoProps, staticProps) { if (protoProps) _defineProperties(Constructor.prototype, protoProps); if (staticProps) _defineProperties(Constructor, staticProps); return Constructor; }

	var WHITESPACE_TOKENS = (_WHITESPACE_TOKENS = {}, _WHITESPACE_TOKENS[tokens.space] = true, _WHITESPACE_TOKENS[tokens.cr] = true, _WHITESPACE_TOKENS[tokens.feed] = true, _WHITESPACE_TOKENS[tokens.newline] = true, _WHITESPACE_TOKENS[tokens.tab] = true, _WHITESPACE_TOKENS);
	var WHITESPACE_EQUIV_TOKENS = Object.assign({}, WHITESPACE_TOKENS, (_Object$assign = {}, _Object$assign[tokens.comment] = true, _Object$assign));

	function tokenStart(token) {
	  return {
	    line: token[_tokenize.FIELDS.START_LINE],
	    column: token[_tokenize.FIELDS.START_COL]
	  };
	}

	function tokenEnd(token) {
	  return {
	    line: token[_tokenize.FIELDS.END_LINE],
	    column: token[_tokenize.FIELDS.END_COL]
	  };
	}

	function getSource(startLine, startColumn, endLine, endColumn) {
	  return {
	    start: {
	      line: startLine,
	      column: startColumn
	    },
	    end: {
	      line: endLine,
	      column: endColumn
	    }
	  };
	}

	function getTokenSource(token) {
	  return getSource(token[_tokenize.FIELDS.START_LINE], token[_tokenize.FIELDS.START_COL], token[_tokenize.FIELDS.END_LINE], token[_tokenize.FIELDS.END_COL]);
	}

	function getTokenSourceSpan(startToken, endToken) {
	  if (!startToken) {
	    return undefined;
	  }

	  return getSource(startToken[_tokenize.FIELDS.START_LINE], startToken[_tokenize.FIELDS.START_COL], endToken[_tokenize.FIELDS.END_LINE], endToken[_tokenize.FIELDS.END_COL]);
	}

	function unescapeProp(node, prop) {
	  var value = node[prop];

	  if (typeof value !== "string") {
	    return;
	  }

	  if (value.indexOf("\\") !== -1) {
	    (0, _util.ensureObject)(node, 'raws');
	    node[prop] = (0, _util.unesc)(value);

	    if (node.raws[prop] === undefined) {
	      node.raws[prop] = value;
	    }
	  }

	  return node;
	}

	function indexesOf(array, item) {
	  var i = -1;
	  var indexes = [];

	  while ((i = array.indexOf(item, i + 1)) !== -1) {
	    indexes.push(i);
	  }

	  return indexes;
	}

	function uniqs() {
	  var list = Array.prototype.concat.apply([], arguments);
	  return list.filter(function (item, i) {
	    return i === list.indexOf(item);
	  });
	}

	var Parser = /*#__PURE__*/function () {
	  function Parser(rule, options) {
	    if (options === void 0) {
	      options = {};
	    }

	    this.rule = rule;
	    this.options = Object.assign({
	      lossy: false,
	      safe: false
	    }, options);
	    this.position = 0;
	    this.css = typeof this.rule === 'string' ? this.rule : this.rule.selector;
	    this.tokens = (0, _tokenize["default"])({
	      css: this.css,
	      error: this._errorGenerator(),
	      safe: this.options.safe
	    });
	    var rootSource = getTokenSourceSpan(this.tokens[0], this.tokens[this.tokens.length - 1]);
	    this.root = new _root["default"]({
	      source: rootSource
	    });
	    this.root.errorGenerator = this._errorGenerator();
	    var selector = new _selector["default"]({
	      source: {
	        start: {
	          line: 1,
	          column: 1
	        }
	      }
	    });
	    this.root.append(selector);
	    this.current = selector;
	    this.loop();
	  }

	  var _proto = Parser.prototype;

	  _proto._errorGenerator = function _errorGenerator() {
	    var _this = this;

	    return function (message, errorOptions) {
	      if (typeof _this.rule === 'string') {
	        return new Error(message);
	      }

	      return _this.rule.error(message, errorOptions);
	    };
	  };

	  _proto.attribute = function attribute() {
	    var attr = [];
	    var startingToken = this.currToken;
	    this.position++;

	    while (this.position < this.tokens.length && this.currToken[_tokenize.FIELDS.TYPE] !== tokens.closeSquare) {
	      attr.push(this.currToken);
	      this.position++;
	    }

	    if (this.currToken[_tokenize.FIELDS.TYPE] !== tokens.closeSquare) {
	      return this.expected('closing square bracket', this.currToken[_tokenize.FIELDS.START_POS]);
	    }

	    var len = attr.length;
	    var node = {
	      source: getSource(startingToken[1], startingToken[2], this.currToken[3], this.currToken[4]),
	      sourceIndex: startingToken[_tokenize.FIELDS.START_POS]
	    };

	    if (len === 1 && !~[tokens.word].indexOf(attr[0][_tokenize.FIELDS.TYPE])) {
	      return this.expected('attribute', attr[0][_tokenize.FIELDS.START_POS]);
	    }

	    var pos = 0;
	    var spaceBefore = '';
	    var commentBefore = '';
	    var lastAdded = null;
	    var spaceAfterMeaningfulToken = false;

	    while (pos < len) {
	      var token = attr[pos];
	      var content = this.content(token);
	      var next = attr[pos + 1];

	      switch (token[_tokenize.FIELDS.TYPE]) {
	        case tokens.space:
	          // if (
	          //     len === 1 ||
	          //     pos === 0 && this.content(next) === '|'
	          // ) {
	          //     return this.expected('attribute', token[TOKEN.START_POS], content);
	          // }
	          spaceAfterMeaningfulToken = true;

	          if (this.options.lossy) {
	            break;
	          }

	          if (lastAdded) {
	            (0, _util.ensureObject)(node, 'spaces', lastAdded);
	            var prevContent = node.spaces[lastAdded].after || '';
	            node.spaces[lastAdded].after = prevContent + content;
	            var existingComment = (0, _util.getProp)(node, 'raws', 'spaces', lastAdded, 'after') || null;

	            if (existingComment) {
	              node.raws.spaces[lastAdded].after = existingComment + content;
	            }
	          } else {
	            spaceBefore = spaceBefore + content;
	            commentBefore = commentBefore + content;
	          }

	          break;

	        case tokens.asterisk:
	          if (next[_tokenize.FIELDS.TYPE] === tokens.equals) {
	            node.operator = content;
	            lastAdded = 'operator';
	          } else if ((!node.namespace || lastAdded === "namespace" && !spaceAfterMeaningfulToken) && next) {
	            if (spaceBefore) {
	              (0, _util.ensureObject)(node, 'spaces', 'attribute');
	              node.spaces.attribute.before = spaceBefore;
	              spaceBefore = '';
	            }

	            if (commentBefore) {
	              (0, _util.ensureObject)(node, 'raws', 'spaces', 'attribute');
	              node.raws.spaces.attribute.before = spaceBefore;
	              commentBefore = '';
	            }

	            node.namespace = (node.namespace || "") + content;
	            var rawValue = (0, _util.getProp)(node, 'raws', 'namespace') || null;

	            if (rawValue) {
	              node.raws.namespace += content;
	            }

	            lastAdded = 'namespace';
	          }

	          spaceAfterMeaningfulToken = false;
	          break;

	        case tokens.dollar:
	          if (lastAdded === "value") {
	            var oldRawValue = (0, _util.getProp)(node, 'raws', 'value');
	            node.value += "$";

	            if (oldRawValue) {
	              node.raws.value = oldRawValue + "$";
	            }

	            break;
	          }

	        // Falls through

	        case tokens.caret:
	          if (next[_tokenize.FIELDS.TYPE] === tokens.equals) {
	            node.operator = content;
	            lastAdded = 'operator';
	          }

	          spaceAfterMeaningfulToken = false;
	          break;

	        case tokens.combinator:
	          if (content === '~' && next[_tokenize.FIELDS.TYPE] === tokens.equals) {
	            node.operator = content;
	            lastAdded = 'operator';
	          }

	          if (content !== '|') {
	            spaceAfterMeaningfulToken = false;
	            break;
	          }

	          if (next[_tokenize.FIELDS.TYPE] === tokens.equals) {
	            node.operator = content;
	            lastAdded = 'operator';
	          } else if (!node.namespace && !node.attribute) {
	            node.namespace = true;
	          }

	          spaceAfterMeaningfulToken = false;
	          break;

	        case tokens.word:
	          if (next && this.content(next) === '|' && attr[pos + 2] && attr[pos + 2][_tokenize.FIELDS.TYPE] !== tokens.equals && // this look-ahead probably fails with comment nodes involved.
	          !node.operator && !node.namespace) {
	            node.namespace = content;
	            lastAdded = 'namespace';
	          } else if (!node.attribute || lastAdded === "attribute" && !spaceAfterMeaningfulToken) {
	            if (spaceBefore) {
	              (0, _util.ensureObject)(node, 'spaces', 'attribute');
	              node.spaces.attribute.before = spaceBefore;
	              spaceBefore = '';
	            }

	            if (commentBefore) {
	              (0, _util.ensureObject)(node, 'raws', 'spaces', 'attribute');
	              node.raws.spaces.attribute.before = commentBefore;
	              commentBefore = '';
	            }

	            node.attribute = (node.attribute || "") + content;

	            var _rawValue = (0, _util.getProp)(node, 'raws', 'attribute') || null;

	            if (_rawValue) {
	              node.raws.attribute += content;
	            }

	            lastAdded = 'attribute';
	          } else if (!node.value && node.value !== "" || lastAdded === "value" && !(spaceAfterMeaningfulToken || node.quoteMark)) {
	            var _unescaped = (0, _util.unesc)(content);

	            var _oldRawValue = (0, _util.getProp)(node, 'raws', 'value') || '';

	            var oldValue = node.value || '';
	            node.value = oldValue + _unescaped;
	            node.quoteMark = null;

	            if (_unescaped !== content || _oldRawValue) {
	              (0, _util.ensureObject)(node, 'raws');
	              node.raws.value = (_oldRawValue || oldValue) + content;
	            }

	            lastAdded = 'value';
	          } else {
	            var insensitive = content === 'i' || content === "I";

	            if ((node.value || node.value === '') && (node.quoteMark || spaceAfterMeaningfulToken)) {
	              node.insensitive = insensitive;

	              if (!insensitive || content === "I") {
	                (0, _util.ensureObject)(node, 'raws');
	                node.raws.insensitiveFlag = content;
	              }

	              lastAdded = 'insensitive';

	              if (spaceBefore) {
	                (0, _util.ensureObject)(node, 'spaces', 'insensitive');
	                node.spaces.insensitive.before = spaceBefore;
	                spaceBefore = '';
	              }

	              if (commentBefore) {
	                (0, _util.ensureObject)(node, 'raws', 'spaces', 'insensitive');
	                node.raws.spaces.insensitive.before = commentBefore;
	                commentBefore = '';
	              }
	            } else if (node.value || node.value === '') {
	              lastAdded = 'value';
	              node.value += content;

	              if (node.raws.value) {
	                node.raws.value += content;
	              }
	            }
	          }

	          spaceAfterMeaningfulToken = false;
	          break;

	        case tokens.str:
	          if (!node.attribute || !node.operator) {
	            return this.error("Expected an attribute followed by an operator preceding the string.", {
	              index: token[_tokenize.FIELDS.START_POS]
	            });
	          }

	          var _unescapeValue = (0, _attribute.unescapeValue)(content),
	              unescaped = _unescapeValue.unescaped,
	              quoteMark = _unescapeValue.quoteMark;

	          node.value = unescaped;
	          node.quoteMark = quoteMark;
	          lastAdded = 'value';
	          (0, _util.ensureObject)(node, 'raws');
	          node.raws.value = content;
	          spaceAfterMeaningfulToken = false;
	          break;

	        case tokens.equals:
	          if (!node.attribute) {
	            return this.expected('attribute', token[_tokenize.FIELDS.START_POS], content);
	          }

	          if (node.value) {
	            return this.error('Unexpected "=" found; an operator was already defined.', {
	              index: token[_tokenize.FIELDS.START_POS]
	            });
	          }

	          node.operator = node.operator ? node.operator + content : content;
	          lastAdded = 'operator';
	          spaceAfterMeaningfulToken = false;
	          break;

	        case tokens.comment:
	          if (lastAdded) {
	            if (spaceAfterMeaningfulToken || next && next[_tokenize.FIELDS.TYPE] === tokens.space || lastAdded === 'insensitive') {
	              var lastComment = (0, _util.getProp)(node, 'spaces', lastAdded, 'after') || '';
	              var rawLastComment = (0, _util.getProp)(node, 'raws', 'spaces', lastAdded, 'after') || lastComment;
	              (0, _util.ensureObject)(node, 'raws', 'spaces', lastAdded);
	              node.raws.spaces[lastAdded].after = rawLastComment + content;
	            } else {
	              var lastValue = node[lastAdded] || '';
	              var rawLastValue = (0, _util.getProp)(node, 'raws', lastAdded) || lastValue;
	              (0, _util.ensureObject)(node, 'raws');
	              node.raws[lastAdded] = rawLastValue + content;
	            }
	          } else {
	            commentBefore = commentBefore + content;
	          }

	          break;

	        default:
	          return this.error("Unexpected \"" + content + "\" found.", {
	            index: token[_tokenize.FIELDS.START_POS]
	          });
	      }

	      pos++;
	    }

	    unescapeProp(node, "attribute");
	    unescapeProp(node, "namespace");
	    this.newNode(new _attribute["default"](node));
	    this.position++;
	  }
	  /**
	   * return a node containing meaningless garbage up to (but not including) the specified token position.
	   * if the token position is negative, all remaining tokens are consumed.
	   *
	   * This returns an array containing a single string node if all whitespace,
	   * otherwise an array of comment nodes with space before and after.
	   *
	   * These tokens are not added to the current selector, the caller can add them or use them to amend
	   * a previous node's space metadata.
	   *
	   * In lossy mode, this returns only comments.
	   */
	  ;

	  _proto.parseWhitespaceEquivalentTokens = function parseWhitespaceEquivalentTokens(stopPosition) {
	    if (stopPosition < 0) {
	      stopPosition = this.tokens.length;
	    }

	    var startPosition = this.position;
	    var nodes = [];
	    var space = "";
	    var lastComment = undefined;

	    do {
	      if (WHITESPACE_TOKENS[this.currToken[_tokenize.FIELDS.TYPE]]) {
	        if (!this.options.lossy) {
	          space += this.content();
	        }
	      } else if (this.currToken[_tokenize.FIELDS.TYPE] === tokens.comment) {
	        var spaces = {};

	        if (space) {
	          spaces.before = space;
	          space = "";
	        }

	        lastComment = new _comment["default"]({
	          value: this.content(),
	          source: getTokenSource(this.currToken),
	          sourceIndex: this.currToken[_tokenize.FIELDS.START_POS],
	          spaces: spaces
	        });
	        nodes.push(lastComment);
	      }
	    } while (++this.position < stopPosition);

	    if (space) {
	      if (lastComment) {
	        lastComment.spaces.after = space;
	      } else if (!this.options.lossy) {
	        var firstToken = this.tokens[startPosition];
	        var lastToken = this.tokens[this.position - 1];
	        nodes.push(new _string["default"]({
	          value: '',
	          source: getSource(firstToken[_tokenize.FIELDS.START_LINE], firstToken[_tokenize.FIELDS.START_COL], lastToken[_tokenize.FIELDS.END_LINE], lastToken[_tokenize.FIELDS.END_COL]),
	          sourceIndex: firstToken[_tokenize.FIELDS.START_POS],
	          spaces: {
	            before: space,
	            after: ''
	          }
	        }));
	      }
	    }

	    return nodes;
	  }
	  /**
	   *
	   * @param {*} nodes
	   */
	  ;

	  _proto.convertWhitespaceNodesToSpace = function convertWhitespaceNodesToSpace(nodes, requiredSpace) {
	    var _this2 = this;

	    if (requiredSpace === void 0) {
	      requiredSpace = false;
	    }

	    var space = "";
	    var rawSpace = "";
	    nodes.forEach(function (n) {
	      var spaceBefore = _this2.lossySpace(n.spaces.before, requiredSpace);

	      var rawSpaceBefore = _this2.lossySpace(n.rawSpaceBefore, requiredSpace);

	      space += spaceBefore + _this2.lossySpace(n.spaces.after, requiredSpace && spaceBefore.length === 0);
	      rawSpace += spaceBefore + n.value + _this2.lossySpace(n.rawSpaceAfter, requiredSpace && rawSpaceBefore.length === 0);
	    });

	    if (rawSpace === space) {
	      rawSpace = undefined;
	    }

	    var result = {
	      space: space,
	      rawSpace: rawSpace
	    };
	    return result;
	  };

	  _proto.isNamedCombinator = function isNamedCombinator(position) {
	    if (position === void 0) {
	      position = this.position;
	    }

	    return this.tokens[position + 0] && this.tokens[position + 0][_tokenize.FIELDS.TYPE] === tokens.slash && this.tokens[position + 1] && this.tokens[position + 1][_tokenize.FIELDS.TYPE] === tokens.word && this.tokens[position + 2] && this.tokens[position + 2][_tokenize.FIELDS.TYPE] === tokens.slash;
	  };

	  _proto.namedCombinator = function namedCombinator() {
	    if (this.isNamedCombinator()) {
	      var nameRaw = this.content(this.tokens[this.position + 1]);
	      var name = (0, _util.unesc)(nameRaw).toLowerCase();
	      var raws = {};

	      if (name !== nameRaw) {
	        raws.value = "/" + nameRaw + "/";
	      }

	      var node = new _combinator["default"]({
	        value: "/" + name + "/",
	        source: getSource(this.currToken[_tokenize.FIELDS.START_LINE], this.currToken[_tokenize.FIELDS.START_COL], this.tokens[this.position + 2][_tokenize.FIELDS.END_LINE], this.tokens[this.position + 2][_tokenize.FIELDS.END_COL]),
	        sourceIndex: this.currToken[_tokenize.FIELDS.START_POS],
	        raws: raws
	      });
	      this.position = this.position + 3;
	      return node;
	    } else {
	      this.unexpected();
	    }
	  };

	  _proto.combinator = function combinator() {
	    var _this3 = this;

	    if (this.content() === '|') {
	      return this.namespace();
	    } // We need to decide between a space that's a descendant combinator and meaningless whitespace at the end of a selector.


	    var nextSigTokenPos = this.locateNextMeaningfulToken(this.position);

	    if (nextSigTokenPos < 0 || this.tokens[nextSigTokenPos][_tokenize.FIELDS.TYPE] === tokens.comma) {
	      var nodes = this.parseWhitespaceEquivalentTokens(nextSigTokenPos);

	      if (nodes.length > 0) {
	        var last = this.current.last;

	        if (last) {
	          var _this$convertWhitespa = this.convertWhitespaceNodesToSpace(nodes),
	              space = _this$convertWhitespa.space,
	              rawSpace = _this$convertWhitespa.rawSpace;

	          if (rawSpace !== undefined) {
	            last.rawSpaceAfter += rawSpace;
	          }

	          last.spaces.after += space;
	        } else {
	          nodes.forEach(function (n) {
	            return _this3.newNode(n);
	          });
	        }
	      }

	      return;
	    }

	    var firstToken = this.currToken;
	    var spaceOrDescendantSelectorNodes = undefined;

	    if (nextSigTokenPos > this.position) {
	      spaceOrDescendantSelectorNodes = this.parseWhitespaceEquivalentTokens(nextSigTokenPos);
	    }

	    var node;

	    if (this.isNamedCombinator()) {
	      node = this.namedCombinator();
	    } else if (this.currToken[_tokenize.FIELDS.TYPE] === tokens.combinator) {
	      node = new _combinator["default"]({
	        value: this.content(),
	        source: getTokenSource(this.currToken),
	        sourceIndex: this.currToken[_tokenize.FIELDS.START_POS]
	      });
	      this.position++;
	    } else if (WHITESPACE_TOKENS[this.currToken[_tokenize.FIELDS.TYPE]]) ; else if (!spaceOrDescendantSelectorNodes) {
	      this.unexpected();
	    }

	    if (node) {
	      if (spaceOrDescendantSelectorNodes) {
	        var _this$convertWhitespa2 = this.convertWhitespaceNodesToSpace(spaceOrDescendantSelectorNodes),
	            _space = _this$convertWhitespa2.space,
	            _rawSpace = _this$convertWhitespa2.rawSpace;

	        node.spaces.before = _space;
	        node.rawSpaceBefore = _rawSpace;
	      }
	    } else {
	      // descendant combinator
	      var _this$convertWhitespa3 = this.convertWhitespaceNodesToSpace(spaceOrDescendantSelectorNodes, true),
	          _space2 = _this$convertWhitespa3.space,
	          _rawSpace2 = _this$convertWhitespa3.rawSpace;

	      if (!_rawSpace2) {
	        _rawSpace2 = _space2;
	      }

	      var spaces = {};
	      var raws = {
	        spaces: {}
	      };

	      if (_space2.endsWith(' ') && _rawSpace2.endsWith(' ')) {
	        spaces.before = _space2.slice(0, _space2.length - 1);
	        raws.spaces.before = _rawSpace2.slice(0, _rawSpace2.length - 1);
	      } else if (_space2.startsWith(' ') && _rawSpace2.startsWith(' ')) {
	        spaces.after = _space2.slice(1);
	        raws.spaces.after = _rawSpace2.slice(1);
	      } else {
	        raws.value = _rawSpace2;
	      }

	      node = new _combinator["default"]({
	        value: ' ',
	        source: getTokenSourceSpan(firstToken, this.tokens[this.position - 1]),
	        sourceIndex: firstToken[_tokenize.FIELDS.START_POS],
	        spaces: spaces,
	        raws: raws
	      });
	    }

	    if (this.currToken && this.currToken[_tokenize.FIELDS.TYPE] === tokens.space) {
	      node.spaces.after = this.optionalSpace(this.content());
	      this.position++;
	    }

	    return this.newNode(node);
	  };

	  _proto.comma = function comma() {
	    if (this.position === this.tokens.length - 1) {
	      this.root.trailingComma = true;
	      this.position++;
	      return;
	    }

	    this.current._inferEndPosition();

	    var selector = new _selector["default"]({
	      source: {
	        start: tokenStart(this.tokens[this.position + 1])
	      }
	    });
	    this.current.parent.append(selector);
	    this.current = selector;
	    this.position++;
	  };

	  _proto.comment = function comment() {
	    var current = this.currToken;
	    this.newNode(new _comment["default"]({
	      value: this.content(),
	      source: getTokenSource(current),
	      sourceIndex: current[_tokenize.FIELDS.START_POS]
	    }));
	    this.position++;
	  };

	  _proto.error = function error(message, opts) {
	    throw this.root.error(message, opts);
	  };

	  _proto.missingBackslash = function missingBackslash() {
	    return this.error('Expected a backslash preceding the semicolon.', {
	      index: this.currToken[_tokenize.FIELDS.START_POS]
	    });
	  };

	  _proto.missingParenthesis = function missingParenthesis() {
	    return this.expected('opening parenthesis', this.currToken[_tokenize.FIELDS.START_POS]);
	  };

	  _proto.missingSquareBracket = function missingSquareBracket() {
	    return this.expected('opening square bracket', this.currToken[_tokenize.FIELDS.START_POS]);
	  };

	  _proto.unexpected = function unexpected() {
	    return this.error("Unexpected '" + this.content() + "'. Escaping special characters with \\ may help.", this.currToken[_tokenize.FIELDS.START_POS]);
	  };

	  _proto.namespace = function namespace() {
	    var before = this.prevToken && this.content(this.prevToken) || true;

	    if (this.nextToken[_tokenize.FIELDS.TYPE] === tokens.word) {
	      this.position++;
	      return this.word(before);
	    } else if (this.nextToken[_tokenize.FIELDS.TYPE] === tokens.asterisk) {
	      this.position++;
	      return this.universal(before);
	    }
	  };

	  _proto.nesting = function nesting() {
	    if (this.nextToken) {
	      var nextContent = this.content(this.nextToken);

	      if (nextContent === "|") {
	        this.position++;
	        return;
	      }
	    }

	    var current = this.currToken;
	    this.newNode(new _nesting["default"]({
	      value: this.content(),
	      source: getTokenSource(current),
	      sourceIndex: current[_tokenize.FIELDS.START_POS]
	    }));
	    this.position++;
	  };

	  _proto.parentheses = function parentheses() {
	    var last = this.current.last;
	    var unbalanced = 1;
	    this.position++;

	    if (last && last.type === types$1.PSEUDO) {
	      var selector = new _selector["default"]({
	        source: {
	          start: tokenStart(this.tokens[this.position - 1])
	        }
	      });
	      var cache = this.current;
	      last.append(selector);
	      this.current = selector;

	      while (this.position < this.tokens.length && unbalanced) {
	        if (this.currToken[_tokenize.FIELDS.TYPE] === tokens.openParenthesis) {
	          unbalanced++;
	        }

	        if (this.currToken[_tokenize.FIELDS.TYPE] === tokens.closeParenthesis) {
	          unbalanced--;
	        }

	        if (unbalanced) {
	          this.parse();
	        } else {
	          this.current.source.end = tokenEnd(this.currToken);
	          this.current.parent.source.end = tokenEnd(this.currToken);
	          this.position++;
	        }
	      }

	      this.current = cache;
	    } else {
	      // I think this case should be an error. It's used to implement a basic parse of media queries
	      // but I don't think it's a good idea.
	      var parenStart = this.currToken;
	      var parenValue = "(";
	      var parenEnd;

	      while (this.position < this.tokens.length && unbalanced) {
	        if (this.currToken[_tokenize.FIELDS.TYPE] === tokens.openParenthesis) {
	          unbalanced++;
	        }

	        if (this.currToken[_tokenize.FIELDS.TYPE] === tokens.closeParenthesis) {
	          unbalanced--;
	        }

	        parenEnd = this.currToken;
	        parenValue += this.parseParenthesisToken(this.currToken);
	        this.position++;
	      }

	      if (last) {
	        last.appendToPropertyAndEscape("value", parenValue, parenValue);
	      } else {
	        this.newNode(new _string["default"]({
	          value: parenValue,
	          source: getSource(parenStart[_tokenize.FIELDS.START_LINE], parenStart[_tokenize.FIELDS.START_COL], parenEnd[_tokenize.FIELDS.END_LINE], parenEnd[_tokenize.FIELDS.END_COL]),
	          sourceIndex: parenStart[_tokenize.FIELDS.START_POS]
	        }));
	      }
	    }

	    if (unbalanced) {
	      return this.expected('closing parenthesis', this.currToken[_tokenize.FIELDS.START_POS]);
	    }
	  };

	  _proto.pseudo = function pseudo() {
	    var _this4 = this;

	    var pseudoStr = '';
	    var startingToken = this.currToken;

	    while (this.currToken && this.currToken[_tokenize.FIELDS.TYPE] === tokens.colon) {
	      pseudoStr += this.content();
	      this.position++;
	    }

	    if (!this.currToken) {
	      return this.expected(['pseudo-class', 'pseudo-element'], this.position - 1);
	    }

	    if (this.currToken[_tokenize.FIELDS.TYPE] === tokens.word) {
	      this.splitWord(false, function (first, length) {
	        pseudoStr += first;

	        _this4.newNode(new _pseudo["default"]({
	          value: pseudoStr,
	          source: getTokenSourceSpan(startingToken, _this4.currToken),
	          sourceIndex: startingToken[_tokenize.FIELDS.START_POS]
	        }));

	        if (length > 1 && _this4.nextToken && _this4.nextToken[_tokenize.FIELDS.TYPE] === tokens.openParenthesis) {
	          _this4.error('Misplaced parenthesis.', {
	            index: _this4.nextToken[_tokenize.FIELDS.START_POS]
	          });
	        }
	      });
	    } else {
	      return this.expected(['pseudo-class', 'pseudo-element'], this.currToken[_tokenize.FIELDS.START_POS]);
	    }
	  };

	  _proto.space = function space() {
	    var content = this.content(); // Handle space before and after the selector

	    if (this.position === 0 || this.prevToken[_tokenize.FIELDS.TYPE] === tokens.comma || this.prevToken[_tokenize.FIELDS.TYPE] === tokens.openParenthesis || this.current.nodes.every(function (node) {
	      return node.type === 'comment';
	    })) {
	      this.spaces = this.optionalSpace(content);
	      this.position++;
	    } else if (this.position === this.tokens.length - 1 || this.nextToken[_tokenize.FIELDS.TYPE] === tokens.comma || this.nextToken[_tokenize.FIELDS.TYPE] === tokens.closeParenthesis) {
	      this.current.last.spaces.after = this.optionalSpace(content);
	      this.position++;
	    } else {
	      this.combinator();
	    }
	  };

	  _proto.string = function string() {
	    var current = this.currToken;
	    this.newNode(new _string["default"]({
	      value: this.content(),
	      source: getTokenSource(current),
	      sourceIndex: current[_tokenize.FIELDS.START_POS]
	    }));
	    this.position++;
	  };

	  _proto.universal = function universal(namespace) {
	    var nextToken = this.nextToken;

	    if (nextToken && this.content(nextToken) === '|') {
	      this.position++;
	      return this.namespace();
	    }

	    var current = this.currToken;
	    this.newNode(new _universal["default"]({
	      value: this.content(),
	      source: getTokenSource(current),
	      sourceIndex: current[_tokenize.FIELDS.START_POS]
	    }), namespace);
	    this.position++;
	  };

	  _proto.splitWord = function splitWord(namespace, firstCallback) {
	    var _this5 = this;

	    var nextToken = this.nextToken;
	    var word = this.content();

	    while (nextToken && ~[tokens.dollar, tokens.caret, tokens.equals, tokens.word].indexOf(nextToken[_tokenize.FIELDS.TYPE])) {
	      this.position++;
	      var current = this.content();
	      word += current;

	      if (current.lastIndexOf('\\') === current.length - 1) {
	        var next = this.nextToken;

	        if (next && next[_tokenize.FIELDS.TYPE] === tokens.space) {
	          word += this.requiredSpace(this.content(next));
	          this.position++;
	        }
	      }

	      nextToken = this.nextToken;
	    }

	    var hasClass = indexesOf(word, '.').filter(function (i) {
	      // Allow escaped dot within class name
	      var escapedDot = word[i - 1] === '\\'; // Allow decimal numbers percent in @keyframes

	      var isKeyframesPercent = /^\d+\.\d+%$/.test(word);
	      return !escapedDot && !isKeyframesPercent;
	    });
	    var hasId = indexesOf(word, '#').filter(function (i) {
	      return word[i - 1] !== '\\';
	    }); // Eliminate Sass interpolations from the list of id indexes

	    var interpolations = indexesOf(word, '#{');

	    if (interpolations.length) {
	      hasId = hasId.filter(function (hashIndex) {
	        return !~interpolations.indexOf(hashIndex);
	      });
	    }

	    var indices = (0, _sortAscending["default"])(uniqs([0].concat(hasClass, hasId)));
	    indices.forEach(function (ind, i) {
	      var index = indices[i + 1] || word.length;
	      var value = word.slice(ind, index);

	      if (i === 0 && firstCallback) {
	        return firstCallback.call(_this5, value, indices.length);
	      }

	      var node;
	      var current = _this5.currToken;
	      var sourceIndex = current[_tokenize.FIELDS.START_POS] + indices[i];
	      var source = getSource(current[1], current[2] + ind, current[3], current[2] + (index - 1));

	      if (~hasClass.indexOf(ind)) {
	        var classNameOpts = {
	          value: value.slice(1),
	          source: source,
	          sourceIndex: sourceIndex
	        };
	        node = new _className["default"](unescapeProp(classNameOpts, "value"));
	      } else if (~hasId.indexOf(ind)) {
	        var idOpts = {
	          value: value.slice(1),
	          source: source,
	          sourceIndex: sourceIndex
	        };
	        node = new _id["default"](unescapeProp(idOpts, "value"));
	      } else {
	        var tagOpts = {
	          value: value,
	          source: source,
	          sourceIndex: sourceIndex
	        };
	        unescapeProp(tagOpts, "value");
	        node = new _tag["default"](tagOpts);
	      }

	      _this5.newNode(node, namespace); // Ensure that the namespace is used only once


	      namespace = null;
	    });
	    this.position++;
	  };

	  _proto.word = function word(namespace) {
	    var nextToken = this.nextToken;

	    if (nextToken && this.content(nextToken) === '|') {
	      this.position++;
	      return this.namespace();
	    }

	    return this.splitWord(namespace);
	  };

	  _proto.loop = function loop() {
	    while (this.position < this.tokens.length) {
	      this.parse(true);
	    }

	    this.current._inferEndPosition();

	    return this.root;
	  };

	  _proto.parse = function parse(throwOnParenthesis) {
	    switch (this.currToken[_tokenize.FIELDS.TYPE]) {
	      case tokens.space:
	        this.space();
	        break;

	      case tokens.comment:
	        this.comment();
	        break;

	      case tokens.openParenthesis:
	        this.parentheses();
	        break;

	      case tokens.closeParenthesis:
	        if (throwOnParenthesis) {
	          this.missingParenthesis();
	        }

	        break;

	      case tokens.openSquare:
	        this.attribute();
	        break;

	      case tokens.dollar:
	      case tokens.caret:
	      case tokens.equals:
	      case tokens.word:
	        this.word();
	        break;

	      case tokens.colon:
	        this.pseudo();
	        break;

	      case tokens.comma:
	        this.comma();
	        break;

	      case tokens.asterisk:
	        this.universal();
	        break;

	      case tokens.ampersand:
	        this.nesting();
	        break;

	      case tokens.slash:
	      case tokens.combinator:
	        this.combinator();
	        break;

	      case tokens.str:
	        this.string();
	        break;
	      // These cases throw; no break needed.

	      case tokens.closeSquare:
	        this.missingSquareBracket();

	      case tokens.semicolon:
	        this.missingBackslash();

	      default:
	        this.unexpected();
	    }
	  }
	  /**
	   * Helpers
	   */
	  ;

	  _proto.expected = function expected(description, index, found) {
	    if (Array.isArray(description)) {
	      var last = description.pop();
	      description = description.join(', ') + " or " + last;
	    }

	    var an = /^[aeiou]/.test(description[0]) ? 'an' : 'a';

	    if (!found) {
	      return this.error("Expected " + an + " " + description + ".", {
	        index: index
	      });
	    }

	    return this.error("Expected " + an + " " + description + ", found \"" + found + "\" instead.", {
	      index: index
	    });
	  };

	  _proto.requiredSpace = function requiredSpace(space) {
	    return this.options.lossy ? ' ' : space;
	  };

	  _proto.optionalSpace = function optionalSpace(space) {
	    return this.options.lossy ? '' : space;
	  };

	  _proto.lossySpace = function lossySpace(space, required) {
	    if (this.options.lossy) {
	      return required ? ' ' : '';
	    } else {
	      return space;
	    }
	  };

	  _proto.parseParenthesisToken = function parseParenthesisToken(token) {
	    var content = this.content(token);

	    if (token[_tokenize.FIELDS.TYPE] === tokens.space) {
	      return this.requiredSpace(content);
	    } else {
	      return content;
	    }
	  };

	  _proto.newNode = function newNode(node, namespace) {
	    if (namespace) {
	      if (/^ +$/.test(namespace)) {
	        if (!this.options.lossy) {
	          this.spaces = (this.spaces || '') + namespace;
	        }

	        namespace = true;
	      }

	      node.namespace = namespace;
	      unescapeProp(node, "namespace");
	    }

	    if (this.spaces) {
	      node.spaces.before = this.spaces;
	      this.spaces = '';
	    }

	    return this.current.append(node);
	  };

	  _proto.content = function content(token) {
	    if (token === void 0) {
	      token = this.currToken;
	    }

	    return this.css.slice(token[_tokenize.FIELDS.START_POS], token[_tokenize.FIELDS.END_POS]);
	  };

	  /**
	   * returns the index of the next non-whitespace, non-comment token.
	   * returns -1 if no meaningful token is found.
	   */
	  _proto.locateNextMeaningfulToken = function locateNextMeaningfulToken(startPosition) {
	    if (startPosition === void 0) {
	      startPosition = this.position + 1;
	    }

	    var searchPosition = startPosition;

	    while (searchPosition < this.tokens.length) {
	      if (WHITESPACE_EQUIV_TOKENS[this.tokens[searchPosition][_tokenize.FIELDS.TYPE]]) {
	        searchPosition++;
	        continue;
	      } else {
	        return searchPosition;
	      }
	    }

	    return -1;
	  };

	  _createClass(Parser, [{
	    key: "currToken",
	    get: function get() {
	      return this.tokens[this.position];
	    }
	  }, {
	    key: "nextToken",
	    get: function get() {
	      return this.tokens[this.position + 1];
	    }
	  }, {
	    key: "prevToken",
	    get: function get() {
	      return this.tokens[this.position - 1];
	    }
	  }]);

	  return Parser;
	}();

	exports["default"] = Parser;
	module.exports = exports.default;
} (parser, parserExports));

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = void 0;

	var _parser = _interopRequireDefault(parserExports);

	function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { "default": obj }; }

	var Processor = /*#__PURE__*/function () {
	  function Processor(func, options) {
	    this.func = func || function noop() {};

	    this.funcRes = null;
	    this.options = options;
	  }

	  var _proto = Processor.prototype;

	  _proto._shouldUpdateSelector = function _shouldUpdateSelector(rule, options) {
	    if (options === void 0) {
	      options = {};
	    }

	    var merged = Object.assign({}, this.options, options);

	    if (merged.updateSelector === false) {
	      return false;
	    } else {
	      return typeof rule !== "string";
	    }
	  };

	  _proto._isLossy = function _isLossy(options) {
	    if (options === void 0) {
	      options = {};
	    }

	    var merged = Object.assign({}, this.options, options);

	    if (merged.lossless === false) {
	      return true;
	    } else {
	      return false;
	    }
	  };

	  _proto._root = function _root(rule, options) {
	    if (options === void 0) {
	      options = {};
	    }

	    var parser = new _parser["default"](rule, this._parseOptions(options));
	    return parser.root;
	  };

	  _proto._parseOptions = function _parseOptions(options) {
	    return {
	      lossy: this._isLossy(options)
	    };
	  };

	  _proto._run = function _run(rule, options) {
	    var _this = this;

	    if (options === void 0) {
	      options = {};
	    }

	    return new Promise(function (resolve, reject) {
	      try {
	        var root = _this._root(rule, options);

	        Promise.resolve(_this.func(root)).then(function (transform) {
	          var string = undefined;

	          if (_this._shouldUpdateSelector(rule, options)) {
	            string = root.toString();
	            rule.selector = string;
	          }

	          return {
	            transform: transform,
	            root: root,
	            string: string
	          };
	        }).then(resolve, reject);
	      } catch (e) {
	        reject(e);
	        return;
	      }
	    });
	  };

	  _proto._runSync = function _runSync(rule, options) {
	    if (options === void 0) {
	      options = {};
	    }

	    var root = this._root(rule, options);

	    var transform = this.func(root);

	    if (transform && typeof transform.then === "function") {
	      throw new Error("Selector processor returned a promise to a synchronous call.");
	    }

	    var string = undefined;

	    if (options.updateSelector && typeof rule !== "string") {
	      string = root.toString();
	      rule.selector = string;
	    }

	    return {
	      transform: transform,
	      root: root,
	      string: string
	    };
	  }
	  /**
	   * Process rule into a selector AST.
	   *
	   * @param rule {postcss.Rule | string} The css selector to be processed
	   * @param options The options for processing
	   * @returns {Promise<parser.Root>} The AST of the selector after processing it.
	   */
	  ;

	  _proto.ast = function ast(rule, options) {
	    return this._run(rule, options).then(function (result) {
	      return result.root;
	    });
	  }
	  /**
	   * Process rule into a selector AST synchronously.
	   *
	   * @param rule {postcss.Rule | string} The css selector to be processed
	   * @param options The options for processing
	   * @returns {parser.Root} The AST of the selector after processing it.
	   */
	  ;

	  _proto.astSync = function astSync(rule, options) {
	    return this._runSync(rule, options).root;
	  }
	  /**
	   * Process a selector into a transformed value asynchronously
	   *
	   * @param rule {postcss.Rule | string} The css selector to be processed
	   * @param options The options for processing
	   * @returns {Promise<any>} The value returned by the processor.
	   */
	  ;

	  _proto.transform = function transform(rule, options) {
	    return this._run(rule, options).then(function (result) {
	      return result.transform;
	    });
	  }
	  /**
	   * Process a selector into a transformed value synchronously.
	   *
	   * @param rule {postcss.Rule | string} The css selector to be processed
	   * @param options The options for processing
	   * @returns {any} The value returned by the processor.
	   */
	  ;

	  _proto.transformSync = function transformSync(rule, options) {
	    return this._runSync(rule, options).transform;
	  }
	  /**
	   * Process a selector into a new selector string asynchronously.
	   *
	   * @param rule {postcss.Rule | string} The css selector to be processed
	   * @param options The options for processing
	   * @returns {string} the selector after processing.
	   */
	  ;

	  _proto.process = function process(rule, options) {
	    return this._run(rule, options).then(function (result) {
	      return result.string || result.root.toString();
	    });
	  }
	  /**
	   * Process a selector into a new selector string synchronously.
	   *
	   * @param rule {postcss.Rule | string} The css selector to be processed
	   * @param options The options for processing
	   * @returns {string} the selector after processing.
	   */
	  ;

	  _proto.processSync = function processSync(rule, options) {
	    var result = this._runSync(rule, options);

	    return result.string || result.root.toString();
	  };

	  return Processor;
	}();

	exports["default"] = Processor;
	module.exports = exports.default;
} (processor, processorExports));

var selectors = {};

var constructors = {};

constructors.__esModule = true;
constructors.universal = constructors.tag = constructors.string = constructors.selector = constructors.root = constructors.pseudo = constructors.nesting = constructors.id = constructors.comment = constructors.combinator = constructors.className = constructors.attribute = void 0;

var _attribute = _interopRequireDefault(attribute$1);

var _className = _interopRequireDefault(classNameExports);

var _combinator = _interopRequireDefault(combinatorExports);

var _comment = _interopRequireDefault(commentExports);

var _id = _interopRequireDefault(idExports);

var _nesting = _interopRequireDefault(nestingExports);

var _pseudo = _interopRequireDefault(pseudoExports);

var _root = _interopRequireDefault(rootExports);

var _selector = _interopRequireDefault(selectorExports);

var _string = _interopRequireDefault(stringExports);

var _tag = _interopRequireDefault(tagExports);

var _universal = _interopRequireDefault(universalExports);

function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { "default": obj }; }

var attribute = function attribute(opts) {
  return new _attribute["default"](opts);
};

constructors.attribute = attribute;

var className = function className(opts) {
  return new _className["default"](opts);
};

constructors.className = className;

var combinator = function combinator(opts) {
  return new _combinator["default"](opts);
};

constructors.combinator = combinator;

var comment = function comment(opts) {
  return new _comment["default"](opts);
};

constructors.comment = comment;

var id = function id(opts) {
  return new _id["default"](opts);
};

constructors.id = id;

var nesting = function nesting(opts) {
  return new _nesting["default"](opts);
};

constructors.nesting = nesting;

var pseudo = function pseudo(opts) {
  return new _pseudo["default"](opts);
};

constructors.pseudo = pseudo;

var root = function root(opts) {
  return new _root["default"](opts);
};

constructors.root = root;

var selector = function selector(opts) {
  return new _selector["default"](opts);
};

constructors.selector = selector;

var string = function string(opts) {
  return new _string["default"](opts);
};

constructors.string = string;

var tag = function tag(opts) {
  return new _tag["default"](opts);
};

constructors.tag = tag;

var universal = function universal(opts) {
  return new _universal["default"](opts);
};

constructors.universal = universal;

var guards = {};

guards.__esModule = true;
guards.isNode = isNode;
guards.isPseudoElement = isPseudoElement;
guards.isPseudoClass = isPseudoClass;
guards.isContainer = isContainer;
guards.isNamespace = isNamespace;
guards.isUniversal = guards.isTag = guards.isString = guards.isSelector = guards.isRoot = guards.isPseudo = guards.isNesting = guards.isIdentifier = guards.isComment = guards.isCombinator = guards.isClassName = guards.isAttribute = void 0;

var _types = types;

var _IS_TYPE;

var IS_TYPE = (_IS_TYPE = {}, _IS_TYPE[_types.ATTRIBUTE] = true, _IS_TYPE[_types.CLASS] = true, _IS_TYPE[_types.COMBINATOR] = true, _IS_TYPE[_types.COMMENT] = true, _IS_TYPE[_types.ID] = true, _IS_TYPE[_types.NESTING] = true, _IS_TYPE[_types.PSEUDO] = true, _IS_TYPE[_types.ROOT] = true, _IS_TYPE[_types.SELECTOR] = true, _IS_TYPE[_types.STRING] = true, _IS_TYPE[_types.TAG] = true, _IS_TYPE[_types.UNIVERSAL] = true, _IS_TYPE);

function isNode(node) {
  return typeof node === "object" && IS_TYPE[node.type];
}

function isNodeType(type, node) {
  return isNode(node) && node.type === type;
}

var isAttribute = isNodeType.bind(null, _types.ATTRIBUTE);
guards.isAttribute = isAttribute;
var isClassName = isNodeType.bind(null, _types.CLASS);
guards.isClassName = isClassName;
var isCombinator = isNodeType.bind(null, _types.COMBINATOR);
guards.isCombinator = isCombinator;
var isComment = isNodeType.bind(null, _types.COMMENT);
guards.isComment = isComment;
var isIdentifier = isNodeType.bind(null, _types.ID);
guards.isIdentifier = isIdentifier;
var isNesting = isNodeType.bind(null, _types.NESTING);
guards.isNesting = isNesting;
var isPseudo = isNodeType.bind(null, _types.PSEUDO);
guards.isPseudo = isPseudo;
var isRoot = isNodeType.bind(null, _types.ROOT);
guards.isRoot = isRoot;
var isSelector = isNodeType.bind(null, _types.SELECTOR);
guards.isSelector = isSelector;
var isString = isNodeType.bind(null, _types.STRING);
guards.isString = isString;
var isTag = isNodeType.bind(null, _types.TAG);
guards.isTag = isTag;
var isUniversal = isNodeType.bind(null, _types.UNIVERSAL);
guards.isUniversal = isUniversal;

function isPseudoElement(node) {
  return isPseudo(node) && node.value && (node.value.startsWith("::") || node.value.toLowerCase() === ":before" || node.value.toLowerCase() === ":after" || node.value.toLowerCase() === ":first-letter" || node.value.toLowerCase() === ":first-line");
}

function isPseudoClass(node) {
  return isPseudo(node) && !isPseudoElement(node);
}

function isContainer(node) {
  return !!(isNode(node) && node.walk);
}

function isNamespace(node) {
  return isAttribute(node) || isTag(node);
}

(function (exports) {

	exports.__esModule = true;

	var _types = types;

	Object.keys(_types).forEach(function (key) {
	  if (key === "default" || key === "__esModule") return;
	  if (key in exports && exports[key] === _types[key]) return;
	  exports[key] = _types[key];
	});

	var _constructors = constructors;

	Object.keys(_constructors).forEach(function (key) {
	  if (key === "default" || key === "__esModule") return;
	  if (key in exports && exports[key] === _constructors[key]) return;
	  exports[key] = _constructors[key];
	});

	var _guards = guards;

	Object.keys(_guards).forEach(function (key) {
	  if (key === "default" || key === "__esModule") return;
	  if (key in exports && exports[key] === _guards[key]) return;
	  exports[key] = _guards[key];
	});
} (selectors));

(function (module, exports) {

	exports.__esModule = true;
	exports["default"] = void 0;

	var _processor = _interopRequireDefault(processorExports);

	var selectors$1 = _interopRequireWildcard(selectors);

	function _getRequireWildcardCache() { if (typeof WeakMap !== "function") return null; var cache = new WeakMap(); _getRequireWildcardCache = function _getRequireWildcardCache() { return cache; }; return cache; }

	function _interopRequireWildcard(obj) { if (obj && obj.__esModule) { return obj; } if (obj === null || typeof obj !== "object" && typeof obj !== "function") { return { "default": obj }; } var cache = _getRequireWildcardCache(); if (cache && cache.has(obj)) { return cache.get(obj); } var newObj = {}; var hasPropertyDescriptor = Object.defineProperty && Object.getOwnPropertyDescriptor; for (var key in obj) { if (Object.prototype.hasOwnProperty.call(obj, key)) { var desc = hasPropertyDescriptor ? Object.getOwnPropertyDescriptor(obj, key) : null; if (desc && (desc.get || desc.set)) { Object.defineProperty(newObj, key, desc); } else { newObj[key] = obj[key]; } } } newObj["default"] = obj; if (cache) { cache.set(obj, newObj); } return newObj; }

	function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { "default": obj }; }

	var parser = function parser(processor) {
	  return new _processor["default"](processor);
	};

	Object.assign(parser, selectors$1);
	delete parser.__esModule;
	var _default = parser;
	exports["default"] = _default;
	module.exports = exports.default;
} (dist, distExports));

var selectorParser = /*@__PURE__*/getDefaultExportFromCjs(distExports);

const animationNameRE = /^(-\w+-)?animation-name$/;
const animationRE = /^(-\w+-)?animation$/;
const scopedPlugin = (id = "") => {
  const keyframes = /* @__PURE__ */ Object.create(null);
  const shortId = id.replace(/^data-v-/, "");
  return {
    postcssPlugin: "vue-sfc-scoped",
    Rule(rule) {
      processRule(id, rule);
    },
    AtRule(node) {
      if (/-?keyframes$/.test(node.name) && !node.params.endsWith(`-${shortId}`)) {
        keyframes[node.params] = node.params = node.params + "-" + shortId;
      }
    },
    OnceExit(root) {
      if (Object.keys(keyframes).length) {
        root.walkDecls((decl) => {
          if (animationNameRE.test(decl.prop)) {
            decl.value = decl.value.split(",").map((v) => keyframes[v.trim()] || v.trim()).join(",");
          }
          if (animationRE.test(decl.prop)) {
            decl.value = decl.value.split(",").map((v) => {
              const vals = v.trim().split(/\s+/);
              const i = vals.findIndex((val) => keyframes[val]);
              if (i !== -1) {
                vals.splice(i, 1, keyframes[vals[i]]);
                return vals.join(" ");
              } else {
                return v;
              }
            }).join(",");
          }
        });
      }
    }
  };
};
const processedRules = /* @__PURE__ */ new WeakSet();
function processRule(id, rule) {
  if (processedRules.has(rule) || rule.parent && rule.parent.type === "atrule" && /-?keyframes$/.test(rule.parent.name)) {
    return;
  }
  processedRules.add(rule);
  rule.selector = selectorParser((selectorRoot) => {
    selectorRoot.each((selector) => {
      rewriteSelector(id, selector, selectorRoot);
    });
  }).processSync(rule.selector);
}
function rewriteSelector(id, selector, selectorRoot, slotted = false) {
  let node = null;
  let shouldInject = true;
  selector.each((n) => {
    if (n.type === "combinator" && (n.value === ">>>" || n.value === "/deep/")) {
      n.value = " ";
      n.spaces.before = n.spaces.after = "";
      warn$1(
        `the >>> and /deep/ combinators have been deprecated. Use :deep() instead.`
      );
      return false;
    }
    if (n.type === "pseudo") {
      const { value } = n;
      if (value === ":deep" || value === "::v-deep") {
        if (n.nodes.length) {
          let last = n;
          n.nodes[0].each((ss) => {
            selector.insertAfter(last, ss);
            last = ss;
          });
          const prev = selector.at(selector.index(n) - 1);
          if (!prev || !isSpaceCombinator(prev)) {
            selector.insertAfter(
              n,
              selectorParser.combinator({
                value: " "
              })
            );
          }
          selector.removeChild(n);
        } else {
          warn$1(
            `::v-deep usage as a combinator has been deprecated. Use :deep(<inner-selector>) instead.`
          );
          const prev = selector.at(selector.index(n) - 1);
          if (prev && isSpaceCombinator(prev)) {
            selector.removeChild(prev);
          }
          selector.removeChild(n);
        }
        return false;
      }
      if (value === ":slotted" || value === "::v-slotted") {
        rewriteSelector(
          id,
          n.nodes[0],
          selectorRoot,
          true
          /* slotted */
        );
        let last = n;
        n.nodes[0].each((ss) => {
          selector.insertAfter(last, ss);
          last = ss;
        });
        selector.removeChild(n);
        shouldInject = false;
        return false;
      }
      if (value === ":global" || value === "::v-global") {
        selectorRoot.insertAfter(selector, n.nodes[0]);
        selectorRoot.removeChild(selector);
        return false;
      }
    }
    if (n.type !== "pseudo" && n.type !== "combinator") {
      node = n;
    }
  });
  if (node) {
    node.spaces.after = "";
  } else {
    selector.first.spaces.before = "";
  }
  if (shouldInject) {
    const idToAdd = slotted ? id + "-s" : id;
    selector.insertAfter(
      // If node is null it means we need to inject [id] at the start
      // insertAfter can handle `null` here
      node,
      selectorParser.attribute({
        attribute: idToAdd,
        value: idToAdd,
        raws: {},
        quoteMark: `"`
      })
    );
  }
}
function isSpaceCombinator(node) {
  return node.type === "combinator" && /^\s+$/.test(node.value);
}
scopedPlugin.postcss = true;
var scopedPlugin$1 = scopedPlugin;

var sourceMap$1 = {};

var sourceMapGenerator = {};

var base64Vlq = {};

var base64$1 = {};

/* -*- Mode: js; js-indent-level: 2; -*- */

/*
 * Copyright 2011 Mozilla Foundation and contributors
 * Licensed under the New BSD license. See LICENSE or:
 * http://opensource.org/licenses/BSD-3-Clause
 */

var intToCharMap = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/'.split('');

/**
 * Encode an integer in the range of 0 to 63 to a single base 64 digit.
 */
base64$1.encode = function (number) {
  if (0 <= number && number < intToCharMap.length) {
    return intToCharMap[number];
  }
  throw new TypeError("Must be between 0 and 63: " + number);
};

/**
 * Decode a single base 64 character code digit to an integer. Returns -1 on
 * failure.
 */
base64$1.decode = function (charCode) {
  var bigA = 65;     // 'A'
  var bigZ = 90;     // 'Z'

  var littleA = 97;  // 'a'
  var littleZ = 122; // 'z'

  var zero = 48;     // '0'
  var nine = 57;     // '9'

  var plus = 43;     // '+'
  var slash = 47;    // '/'

  var littleOffset = 26;
  var numberOffset = 52;

  // 0 - 25: ABCDEFGHIJKLMNOPQRSTUVWXYZ
  if (bigA <= charCode && charCode <= bigZ) {
    return (charCode - bigA);
  }

  // 26 - 51: abcdefghijklmnopqrstuvwxyz
  if (littleA <= charCode && charCode <= littleZ) {
    return (charCode - littleA + littleOffset);
  }

  // 52 - 61: 0123456789
  if (zero <= charCode && charCode <= nine) {
    return (charCode - zero + numberOffset);
  }

  // 62: +
  if (charCode == plus) {
    return 62;
  }

  // 63: /
  if (charCode == slash) {
    return 63;
  }

  // Invalid base64 digit.
  return -1;
};

/* -*- Mode: js; js-indent-level: 2; -*- */

/*
 * Copyright 2011 Mozilla Foundation and contributors
 * Licensed under the New BSD license. See LICENSE or:
 * http://opensource.org/licenses/BSD-3-Clause
 *
 * Based on the Base 64 VLQ implementation in Closure Compiler:
 * https://code.google.com/p/closure-compiler/source/browse/trunk/src/com/google/debugging/sourcemap/Base64VLQ.java
 *
 * Copyright 2011 The Closure Compiler Authors. All rights reserved.
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are
 * met:
 *
 *  * Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 *  * Redistributions in binary form must reproduce the above
 *    copyright notice, this list of conditions and the following
 *    disclaimer in the documentation and/or other materials provided
 *    with the distribution.
 *  * Neither the name of Google Inc. nor the names of its
 *    contributors may be used to endorse or promote products derived
 *    from this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 */

var base64 = base64$1;

// A single base 64 digit can contain 6 bits of data. For the base 64 variable
// length quantities we use in the source map spec, the first bit is the sign,
// the next four bits are the actual value, and the 6th bit is the
// continuation bit. The continuation bit tells us whether there are more
// digits in this value following this digit.
//
//   Continuation
//   |    Sign
//   |    |
//   V    V
//   101011

var VLQ_BASE_SHIFT = 5;

// binary: 100000
var VLQ_BASE = 1 << VLQ_BASE_SHIFT;

// binary: 011111
var VLQ_BASE_MASK = VLQ_BASE - 1;

// binary: 100000
var VLQ_CONTINUATION_BIT = VLQ_BASE;

/**
 * Converts from a two-complement value to a value where the sign bit is
 * placed in the least significant bit.  For example, as decimals:
 *   1 becomes 2 (10 binary), -1 becomes 3 (11 binary)
 *   2 becomes 4 (100 binary), -2 becomes 5 (101 binary)
 */
function toVLQSigned(aValue) {
  return aValue < 0
    ? ((-aValue) << 1) + 1
    : (aValue << 1) + 0;
}

/**
 * Converts to a two-complement value from a value where the sign bit is
 * placed in the least significant bit.  For example, as decimals:
 *   2 (10 binary) becomes 1, 3 (11 binary) becomes -1
 *   4 (100 binary) becomes 2, 5 (101 binary) becomes -2
 */
function fromVLQSigned(aValue) {
  var isNegative = (aValue & 1) === 1;
  var shifted = aValue >> 1;
  return isNegative
    ? -shifted
    : shifted;
}

/**
 * Returns the base 64 VLQ encoded value.
 */
base64Vlq.encode = function base64VLQ_encode(aValue) {
  var encoded = "";
  var digit;

  var vlq = toVLQSigned(aValue);

  do {
    digit = vlq & VLQ_BASE_MASK;
    vlq >>>= VLQ_BASE_SHIFT;
    if (vlq > 0) {
      // There are still more digits in this value, so we must make sure the
      // continuation bit is marked.
      digit |= VLQ_CONTINUATION_BIT;
    }
    encoded += base64.encode(digit);
  } while (vlq > 0);

  return encoded;
};

/**
 * Decodes the next base 64 VLQ value from the given string and returns the
 * value and the rest of the string via the out parameter.
 */
base64Vlq.decode = function base64VLQ_decode(aStr, aIndex, aOutParam) {
  var strLen = aStr.length;
  var result = 0;
  var shift = 0;
  var continuation, digit;

  do {
    if (aIndex >= strLen) {
      throw new Error("Expected more digits in base 64 VLQ value.");
    }

    digit = base64.decode(aStr.charCodeAt(aIndex++));
    if (digit === -1) {
      throw new Error("Invalid base64 digit: " + aStr.charAt(aIndex - 1));
    }

    continuation = !!(digit & VLQ_CONTINUATION_BIT);
    digit &= VLQ_BASE_MASK;
    result = result + (digit << shift);
    shift += VLQ_BASE_SHIFT;
  } while (continuation);

  aOutParam.value = fromVLQSigned(result);
  aOutParam.rest = aIndex;
};

var util$5 = {};

/* -*- Mode: js; js-indent-level: 2; -*- */

(function (exports) {
	/*
	 * Copyright 2011 Mozilla Foundation and contributors
	 * Licensed under the New BSD license. See LICENSE or:
	 * http://opensource.org/licenses/BSD-3-Clause
	 */

	/**
	 * This is a helper function for getting values from parameter/options
	 * objects.
	 *
	 * @param args The object we are extracting values from
	 * @param name The name of the property we are getting.
	 * @param defaultValue An optional value to return if the property is missing
	 * from the object. If this is not specified and the property is missing, an
	 * error will be thrown.
	 */
	function getArg(aArgs, aName, aDefaultValue) {
	  if (aName in aArgs) {
	    return aArgs[aName];
	  } else if (arguments.length === 3) {
	    return aDefaultValue;
	  } else {
	    throw new Error('"' + aName + '" is a required argument.');
	  }
	}
	exports.getArg = getArg;

	var urlRegexp = /^(?:([\w+\-.]+):)?\/\/(?:(\w+:\w+)@)?([\w.-]*)(?::(\d+))?(.*)$/;
	var dataUrlRegexp = /^data:.+\,.+$/;

	function urlParse(aUrl) {
	  var match = aUrl.match(urlRegexp);
	  if (!match) {
	    return null;
	  }
	  return {
	    scheme: match[1],
	    auth: match[2],
	    host: match[3],
	    port: match[4],
	    path: match[5]
	  };
	}
	exports.urlParse = urlParse;

	function urlGenerate(aParsedUrl) {
	  var url = '';
	  if (aParsedUrl.scheme) {
	    url += aParsedUrl.scheme + ':';
	  }
	  url += '//';
	  if (aParsedUrl.auth) {
	    url += aParsedUrl.auth + '@';
	  }
	  if (aParsedUrl.host) {
	    url += aParsedUrl.host;
	  }
	  if (aParsedUrl.port) {
	    url += ":" + aParsedUrl.port;
	  }
	  if (aParsedUrl.path) {
	    url += aParsedUrl.path;
	  }
	  return url;
	}
	exports.urlGenerate = urlGenerate;

	/**
	 * Normalizes a path, or the path portion of a URL:
	 *
	 * - Replaces consecutive slashes with one slash.
	 * - Removes unnecessary '.' parts.
	 * - Removes unnecessary '<dir>/..' parts.
	 *
	 * Based on code in the Node.js 'path' core module.
	 *
	 * @param aPath The path or url to normalize.
	 */
	function normalize(aPath) {
	  var path = aPath;
	  var url = urlParse(aPath);
	  if (url) {
	    if (!url.path) {
	      return aPath;
	    }
	    path = url.path;
	  }
	  var isAbsolute = exports.isAbsolute(path);

	  var parts = path.split(/\/+/);
	  for (var part, up = 0, i = parts.length - 1; i >= 0; i--) {
	    part = parts[i];
	    if (part === '.') {
	      parts.splice(i, 1);
	    } else if (part === '..') {
	      up++;
	    } else if (up > 0) {
	      if (part === '') {
	        // The first part is blank if the path is absolute. Trying to go
	        // above the root is a no-op. Therefore we can remove all '..' parts
	        // directly after the root.
	        parts.splice(i + 1, up);
	        up = 0;
	      } else {
	        parts.splice(i, 2);
	        up--;
	      }
	    }
	  }
	  path = parts.join('/');

	  if (path === '') {
	    path = isAbsolute ? '/' : '.';
	  }

	  if (url) {
	    url.path = path;
	    return urlGenerate(url);
	  }
	  return path;
	}
	exports.normalize = normalize;

	/**
	 * Joins two paths/URLs.
	 *
	 * @param aRoot The root path or URL.
	 * @param aPath The path or URL to be joined with the root.
	 *
	 * - If aPath is a URL or a data URI, aPath is returned, unless aPath is a
	 *   scheme-relative URL: Then the scheme of aRoot, if any, is prepended
	 *   first.
	 * - Otherwise aPath is a path. If aRoot is a URL, then its path portion
	 *   is updated with the result and aRoot is returned. Otherwise the result
	 *   is returned.
	 *   - If aPath is absolute, the result is aPath.
	 *   - Otherwise the two paths are joined with a slash.
	 * - Joining for example 'http://' and 'www.example.com' is also supported.
	 */
	function join(aRoot, aPath) {
	  if (aRoot === "") {
	    aRoot = ".";
	  }
	  if (aPath === "") {
	    aPath = ".";
	  }
	  var aPathUrl = urlParse(aPath);
	  var aRootUrl = urlParse(aRoot);
	  if (aRootUrl) {
	    aRoot = aRootUrl.path || '/';
	  }

	  // `join(foo, '//www.example.org')`
	  if (aPathUrl && !aPathUrl.scheme) {
	    if (aRootUrl) {
	      aPathUrl.scheme = aRootUrl.scheme;
	    }
	    return urlGenerate(aPathUrl);
	  }

	  if (aPathUrl || aPath.match(dataUrlRegexp)) {
	    return aPath;
	  }

	  // `join('http://', 'www.example.com')`
	  if (aRootUrl && !aRootUrl.host && !aRootUrl.path) {
	    aRootUrl.host = aPath;
	    return urlGenerate(aRootUrl);
	  }

	  var joined = aPath.charAt(0) === '/'
	    ? aPath
	    : normalize(aRoot.replace(/\/+$/, '') + '/' + aPath);

	  if (aRootUrl) {
	    aRootUrl.path = joined;
	    return urlGenerate(aRootUrl);
	  }
	  return joined;
	}
	exports.join = join;

	exports.isAbsolute = function (aPath) {
	  return aPath.charAt(0) === '/' || urlRegexp.test(aPath);
	};

	/**
	 * Make a path relative to a URL or another path.
	 *
	 * @param aRoot The root path or URL.
	 * @param aPath The path or URL to be made relative to aRoot.
	 */
	function relative(aRoot, aPath) {
	  if (aRoot === "") {
	    aRoot = ".";
	  }

	  aRoot = aRoot.replace(/\/$/, '');

	  // It is possible for the path to be above the root. In this case, simply
	  // checking whether the root is a prefix of the path won't work. Instead, we
	  // need to remove components from the root one by one, until either we find
	  // a prefix that fits, or we run out of components to remove.
	  var level = 0;
	  while (aPath.indexOf(aRoot + '/') !== 0) {
	    var index = aRoot.lastIndexOf("/");
	    if (index < 0) {
	      return aPath;
	    }

	    // If the only part of the root that is left is the scheme (i.e. http://,
	    // file:///, etc.), one or more slashes (/), or simply nothing at all, we
	    // have exhausted all components, so the path is not relative to the root.
	    aRoot = aRoot.slice(0, index);
	    if (aRoot.match(/^([^\/]+:\/)?\/*$/)) {
	      return aPath;
	    }

	    ++level;
	  }

	  // Make sure we add a "../" for each component we removed from the root.
	  return Array(level + 1).join("../") + aPath.substr(aRoot.length + 1);
	}
	exports.relative = relative;

	var supportsNullProto = (function () {
	  var obj = Object.create(null);
	  return !('__proto__' in obj);
	}());

	function identity (s) {
	  return s;
	}

	/**
	 * Because behavior goes wacky when you set `__proto__` on objects, we
	 * have to prefix all the strings in our set with an arbitrary character.
	 *
	 * See https://github.com/mozilla/source-map/pull/31 and
	 * https://github.com/mozilla/source-map/issues/30
	 *
	 * @param String aStr
	 */
	function toSetString(aStr) {
	  if (isProtoString(aStr)) {
	    return '$' + aStr;
	  }

	  return aStr;
	}
	exports.toSetString = supportsNullProto ? identity : toSetString;

	function fromSetString(aStr) {
	  if (isProtoString(aStr)) {
	    return aStr.slice(1);
	  }

	  return aStr;
	}
	exports.fromSetString = supportsNullProto ? identity : fromSetString;

	function isProtoString(s) {
	  if (!s) {
	    return false;
	  }

	  var length = s.length;

	  if (length < 9 /* "__proto__".length */) {
	    return false;
	  }

	  if (s.charCodeAt(length - 1) !== 95  /* '_' */ ||
	      s.charCodeAt(length - 2) !== 95  /* '_' */ ||
	      s.charCodeAt(length - 3) !== 111 /* 'o' */ ||
	      s.charCodeAt(length - 4) !== 116 /* 't' */ ||
	      s.charCodeAt(length - 5) !== 111 /* 'o' */ ||
	      s.charCodeAt(length - 6) !== 114 /* 'r' */ ||
	      s.charCodeAt(length - 7) !== 112 /* 'p' */ ||
	      s.charCodeAt(length - 8) !== 95  /* '_' */ ||
	      s.charCodeAt(length - 9) !== 95  /* '_' */) {
	    return false;
	  }

	  for (var i = length - 10; i >= 0; i--) {
	    if (s.charCodeAt(i) !== 36 /* '$' */) {
	      return false;
	    }
	  }

	  return true;
	}

	/**
	 * Comparator between two mappings where the original positions are compared.
	 *
	 * Optionally pass in `true` as `onlyCompareGenerated` to consider two
	 * mappings with the same original source/line/column, but different generated
	 * line and column the same. Useful when searching for a mapping with a
	 * stubbed out mapping.
	 */
	function compareByOriginalPositions(mappingA, mappingB, onlyCompareOriginal) {
	  var cmp = strcmp(mappingA.source, mappingB.source);
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.originalLine - mappingB.originalLine;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.originalColumn - mappingB.originalColumn;
	  if (cmp !== 0 || onlyCompareOriginal) {
	    return cmp;
	  }

	  cmp = mappingA.generatedColumn - mappingB.generatedColumn;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.generatedLine - mappingB.generatedLine;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  return strcmp(mappingA.name, mappingB.name);
	}
	exports.compareByOriginalPositions = compareByOriginalPositions;

	/**
	 * Comparator between two mappings with deflated source and name indices where
	 * the generated positions are compared.
	 *
	 * Optionally pass in `true` as `onlyCompareGenerated` to consider two
	 * mappings with the same generated line and column, but different
	 * source/name/original line and column the same. Useful when searching for a
	 * mapping with a stubbed out mapping.
	 */
	function compareByGeneratedPositionsDeflated(mappingA, mappingB, onlyCompareGenerated) {
	  var cmp = mappingA.generatedLine - mappingB.generatedLine;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.generatedColumn - mappingB.generatedColumn;
	  if (cmp !== 0 || onlyCompareGenerated) {
	    return cmp;
	  }

	  cmp = strcmp(mappingA.source, mappingB.source);
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.originalLine - mappingB.originalLine;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.originalColumn - mappingB.originalColumn;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  return strcmp(mappingA.name, mappingB.name);
	}
	exports.compareByGeneratedPositionsDeflated = compareByGeneratedPositionsDeflated;

	function strcmp(aStr1, aStr2) {
	  if (aStr1 === aStr2) {
	    return 0;
	  }

	  if (aStr1 === null) {
	    return 1; // aStr2 !== null
	  }

	  if (aStr2 === null) {
	    return -1; // aStr1 !== null
	  }

	  if (aStr1 > aStr2) {
	    return 1;
	  }

	  return -1;
	}

	/**
	 * Comparator between two mappings with inflated source and name strings where
	 * the generated positions are compared.
	 */
	function compareByGeneratedPositionsInflated(mappingA, mappingB) {
	  var cmp = mappingA.generatedLine - mappingB.generatedLine;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.generatedColumn - mappingB.generatedColumn;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = strcmp(mappingA.source, mappingB.source);
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.originalLine - mappingB.originalLine;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  cmp = mappingA.originalColumn - mappingB.originalColumn;
	  if (cmp !== 0) {
	    return cmp;
	  }

	  return strcmp(mappingA.name, mappingB.name);
	}
	exports.compareByGeneratedPositionsInflated = compareByGeneratedPositionsInflated;

	/**
	 * Strip any JSON XSSI avoidance prefix from the string (as documented
	 * in the source maps specification), and then parse the string as
	 * JSON.
	 */
	function parseSourceMapInput(str) {
	  return JSON.parse(str.replace(/^\)]}'[^\n]*\n/, ''));
	}
	exports.parseSourceMapInput = parseSourceMapInput;

	/**
	 * Compute the URL of a source given the the source root, the source's
	 * URL, and the source map's URL.
	 */
	function computeSourceURL(sourceRoot, sourceURL, sourceMapURL) {
	  sourceURL = sourceURL || '';

	  if (sourceRoot) {
	    // This follows what Chrome does.
	    if (sourceRoot[sourceRoot.length - 1] !== '/' && sourceURL[0] !== '/') {
	      sourceRoot += '/';
	    }
	    // The spec says:
	    //   Line 4: An optional source root, useful for relocating source
	    //   files on a server or removing repeated values in the
	    //   “sources” entry.  This value is prepended to the individual
	    //   entries in the “source” field.
	    sourceURL = sourceRoot + sourceURL;
	  }

	  // Historically, SourceMapConsumer did not take the sourceMapURL as
	  // a parameter.  This mode is still somewhat supported, which is why
	  // this code block is conditional.  However, it's preferable to pass
	  // the source map URL to SourceMapConsumer, so that this function
	  // can implement the source URL resolution algorithm as outlined in
	  // the spec.  This block is basically the equivalent of:
	  //    new URL(sourceURL, sourceMapURL).toString()
	  // ... except it avoids using URL, which wasn't available in the
	  // older releases of node still supported by this library.
	  //
	  // The spec says:
	  //   If the sources are not absolute URLs after prepending of the
	  //   “sourceRoot”, the sources are resolved relative to the
	  //   SourceMap (like resolving script src in a html document).
	  if (sourceMapURL) {
	    var parsed = urlParse(sourceMapURL);
	    if (!parsed) {
	      throw new Error("sourceMapURL could not be parsed");
	    }
	    if (parsed.path) {
	      // Strip the last path component, but keep the "/".
	      var index = parsed.path.lastIndexOf('/');
	      if (index >= 0) {
	        parsed.path = parsed.path.substring(0, index + 1);
	      }
	    }
	    sourceURL = join(urlGenerate(parsed), sourceURL);
	  }

	  return normalize(sourceURL);
	}
	exports.computeSourceURL = computeSourceURL;
} (util$5));

var arraySet = {};

/* -*- Mode: js; js-indent-level: 2; -*- */

/*
 * Copyright 2011 Mozilla Foundation and contributors
 * Licensed under the New BSD license. See LICENSE or:
 * http://opensource.org/licenses/BSD-3-Clause
 */

var util$4 = util$5;
var has = Object.prototype.hasOwnProperty;
var hasNativeMap = typeof Map !== "undefined";

/**
 * A data structure which is a combination of an array and a set. Adding a new
 * member is O(1), testing for membership is O(1), and finding the index of an
 * element is O(1). Removing elements from the set is not supported. Only
 * strings are supported for membership.
 */
function ArraySet$2() {
  this._array = [];
  this._set = hasNativeMap ? new Map() : Object.create(null);
}

/**
 * Static method for creating ArraySet instances from an existing array.
 */
ArraySet$2.fromArray = function ArraySet_fromArray(aArray, aAllowDuplicates) {
  var set = new ArraySet$2();
  for (var i = 0, len = aArray.length; i < len; i++) {
    set.add(aArray[i], aAllowDuplicates);
  }
  return set;
};

/**
 * Return how many unique items are in this ArraySet. If duplicates have been
 * added, than those do not count towards the size.
 *
 * @returns Number
 */
ArraySet$2.prototype.size = function ArraySet_size() {
  return hasNativeMap ? this._set.size : Object.getOwnPropertyNames(this._set).length;
};

/**
 * Add the given string to this set.
 *
 * @param String aStr
 */
ArraySet$2.prototype.add = function ArraySet_add(aStr, aAllowDuplicates) {
  var sStr = hasNativeMap ? aStr : util$4.toSetString(aStr);
  var isDuplicate = hasNativeMap ? this.has(aStr) : has.call(this._set, sStr);
  var idx = this._array.length;
  if (!isDuplicate || aAllowDuplicates) {
    this._array.push(aStr);
  }
  if (!isDuplicate) {
    if (hasNativeMap) {
      this._set.set(aStr, idx);
    } else {
      this._set[sStr] = idx;
    }
  }
};

/**
 * Is the given string a member of this set?
 *
 * @param String aStr
 */
ArraySet$2.prototype.has = function ArraySet_has(aStr) {
  if (hasNativeMap) {
    return this._set.has(aStr);
  } else {
    var sStr = util$4.toSetString(aStr);
    return has.call(this._set, sStr);
  }
};

/**
 * What is the index of the given string in the array?
 *
 * @param String aStr
 */
ArraySet$2.prototype.indexOf = function ArraySet_indexOf(aStr) {
  if (hasNativeMap) {
    var idx = this._set.get(aStr);
    if (idx >= 0) {
        return idx;
    }
  } else {
    var sStr = util$4.toSetString(aStr);
    if (has.call(this._set, sStr)) {
      return this._set[sStr];
    }
  }

  throw new Error('"' + aStr + '" is not in the set.');
};

/**
 * What is the element at the given index?
 *
 * @param Number aIdx
 */
ArraySet$2.prototype.at = function ArraySet_at(aIdx) {
  if (aIdx >= 0 && aIdx < this._array.length) {
    return this._array[aIdx];
  }
  throw new Error('No element indexed by ' + aIdx);
};

/**
 * Returns the array representation of this set (which has the proper indices
 * indicated by indexOf). Note that this is a copy of the internal array used
 * for storing the members so that no one can mess with internal state.
 */
ArraySet$2.prototype.toArray = function ArraySet_toArray() {
  return this._array.slice();
};

arraySet.ArraySet = ArraySet$2;

var mappingList = {};

/* -*- Mode: js; js-indent-level: 2; -*- */

/*
 * Copyright 2014 Mozilla Foundation and contributors
 * Licensed under the New BSD license. See LICENSE or:
 * http://opensource.org/licenses/BSD-3-Clause
 */

var util$3 = util$5;

/**
 * Determine whether mappingB is after mappingA with respect to generated
 * position.
 */
function generatedPositionAfter(mappingA, mappingB) {
  // Optimized for most common case
  var lineA = mappingA.generatedLine;
  var lineB = mappingB.generatedLine;
  var columnA = mappingA.generatedColumn;
  var columnB = mappingB.generatedColumn;
  return lineB > lineA || lineB == lineA && columnB >= columnA ||
         util$3.compareByGeneratedPositionsInflated(mappingA, mappingB) <= 0;
}

/**
 * A data structure to provide a sorted view of accumulated mappings in a
 * performance conscious manner. It trades a neglibable overhead in general
 * case for a large speedup in case of mappings being added in order.
 */
function MappingList$1() {
  this._array = [];
  this._sorted = true;
  // Serves as infimum
  this._last = {generatedLine: -1, generatedColumn: 0};
}

/**
 * Iterate through internal items. This method takes the same arguments that
 * `Array.prototype.forEach` takes.
 *
 * NOTE: The order of the mappings is NOT guaranteed.
 */
MappingList$1.prototype.unsortedForEach =
  function MappingList_forEach(aCallback, aThisArg) {
    this._array.forEach(aCallback, aThisArg);
  };

/**
 * Add the given source mapping.
 *
 * @param Object aMapping
 */
MappingList$1.prototype.add = function MappingList_add(aMapping) {
  if (generatedPositionAfter(this._last, aMapping)) {
    this._last = aMapping;
    this._array.push(aMapping);
  } else {
    this._sorted = false;
    this._array.push(aMapping);
  }
};

/**
 * Returns the flat, sorted array of mappings. The mappings are sorted by
 * generated position.
 *
 * WARNING: This method returns internal data without copying, for
 * performance. The return value must NOT be mutated, and should be treated as
 * an immutable borrow. If you want to take ownership, you must make your own
 * copy.
 */
MappingList$1.prototype.toArray = function MappingList_toArray() {
  if (!this._sorted) {
    this._array.sort(util$3.compareByGeneratedPositionsInflated);
    this._sorted = true;
  }
  return this._array;
};

mappingList.MappingList = MappingList$1;

/* -*- Mode: js; js-indent-level: 2; -*- */

/*
 * Copyright 2011 Mozilla Foundation and contributors
 * Licensed under the New BSD license. See LICENSE or:
 * http://opensource.org/licenses/BSD-3-Clause
 */

var base64VLQ$1 = base64Vlq;
var util$2 = util$5;
var ArraySet$1 = arraySet.ArraySet;
var MappingList = mappingList.MappingList;

/**
 * An instance of the SourceMapGenerator represents a source map which is
 * being built incrementally. You may pass an object with the following
 * properties:
 *
 *   - file: The filename of the generated source.
 *   - sourceRoot: A root for all relative URLs in this source map.
 */
function SourceMapGenerator$2(aArgs) {
  if (!aArgs) {
    aArgs = {};
  }
  this._file = util$2.getArg(aArgs, 'file', null);
  this._sourceRoot = util$2.getArg(aArgs, 'sourceRoot', null);
  this._skipValidation = util$2.getArg(aArgs, 'skipValidation', false);
  this._sources = new ArraySet$1();
  this._names = new ArraySet$1();
  this._mappings = new MappingList();
  this._sourcesContents = null;
}

SourceMapGenerator$2.prototype._version = 3;

/**
 * Creates a new SourceMapGenerator based on a SourceMapConsumer
 *
 * @param aSourceMapConsumer The SourceMap.
 */
SourceMapGenerator$2.fromSourceMap =
  function SourceMapGenerator_fromSourceMap(aSourceMapConsumer) {
    var sourceRoot = aSourceMapConsumer.sourceRoot;
    var generator = new SourceMapGenerator$2({
      file: aSourceMapConsumer.file,
      sourceRoot: sourceRoot
    });
    aSourceMapConsumer.eachMapping(function (mapping) {
      var newMapping = {
        generated: {
          line: mapping.generatedLine,
          column: mapping.generatedColumn
        }
      };

      if (mapping.source != null) {
        newMapping.source = mapping.source;
        if (sourceRoot != null) {
          newMapping.source = util$2.relative(sourceRoot, newMapping.source);
        }

        newMapping.original = {
          line: mapping.originalLine,
          column: mapping.originalColumn
        };

        if (mapping.name != null) {
          newMapping.name = mapping.name;
        }
      }

      generator.addMapping(newMapping);
    });
    aSourceMapConsumer.sources.forEach(function (sourceFile) {
      var sourceRelative = sourceFile;
      if (sourceRoot !== null) {
        sourceRelative = util$2.relative(sourceRoot, sourceFile);
      }

      if (!generator._sources.has(sourceRelative)) {
        generator._sources.add(sourceRelative);
      }

      var content = aSourceMapConsumer.sourceContentFor(sourceFile);
      if (content != null) {
        generator.setSourceContent(sourceFile, content);
      }
    });
    return generator;
  };

/**
 * Add a single mapping from original source line and column to the generated
 * source's line and column for this source map being created. The mapping
 * object should have the following properties:
 *
 *   - generated: An object with the generated line and column positions.
 *   - original: An object with the original line and column positions.
 *   - source: The original source file (relative to the sourceRoot).
 *   - name: An optional original token name for this mapping.
 */
SourceMapGenerator$2.prototype.addMapping =
  function SourceMapGenerator_addMapping(aArgs) {
    var generated = util$2.getArg(aArgs, 'generated');
    var original = util$2.getArg(aArgs, 'original', null);
    var source = util$2.getArg(aArgs, 'source', null);
    var name = util$2.getArg(aArgs, 'name', null);

    if (!this._skipValidation) {
      this._validateMapping(generated, original, source, name);
    }

    if (source != null) {
      source = String(source);
      if (!this._sources.has(source)) {
        this._sources.add(source);
      }
    }

    if (name != null) {
      name = String(name);
      if (!this._names.has(name)) {
        this._names.add(name);
      }
    }

    this._mappings.add({
      generatedLine: generated.line,
      generatedColumn: generated.column,
      originalLine: original != null && original.line,
      originalColumn: original != null && original.column,
      source: source,
      name: name
    });
  };

/**
 * Set the source content for a source file.
 */
SourceMapGenerator$2.prototype.setSourceContent =
  function SourceMapGenerator_setSourceContent(aSourceFile, aSourceContent) {
    var source = aSourceFile;
    if (this._sourceRoot != null) {
      source = util$2.relative(this._sourceRoot, source);
    }

    if (aSourceContent != null) {
      // Add the source content to the _sourcesContents map.
      // Create a new _sourcesContents map if the property is null.
      if (!this._sourcesContents) {
        this._sourcesContents = Object.create(null);
      }
      this._sourcesContents[util$2.toSetString(source)] = aSourceContent;
    } else if (this._sourcesContents) {
      // Remove the source file from the _sourcesContents map.
      // If the _sourcesContents map is empty, set the property to null.
      delete this._sourcesContents[util$2.toSetString(source)];
      if (Object.keys(this._sourcesContents).length === 0) {
        this._sourcesContents = null;
      }
    }
  };

/**
 * Applies the mappings of a sub-source-map for a specific source file to the
 * source map being generated. Each mapping to the supplied source file is
 * rewritten using the supplied source map. Note: The resolution for the
 * resulting mappings is the minimium of this map and the supplied map.
 *
 * @param aSourceMapConsumer The source map to be applied.
 * @param aSourceFile Optional. The filename of the source file.
 *        If omitted, SourceMapConsumer's file property will be used.
 * @param aSourceMapPath Optional. The dirname of the path to the source map
 *        to be applied. If relative, it is relative to the SourceMapConsumer.
 *        This parameter is needed when the two source maps aren't in the same
 *        directory, and the source map to be applied contains relative source
 *        paths. If so, those relative source paths need to be rewritten
 *        relative to the SourceMapGenerator.
 */
SourceMapGenerator$2.prototype.applySourceMap =
  function SourceMapGenerator_applySourceMap(aSourceMapConsumer, aSourceFile, aSourceMapPath) {
    var sourceFile = aSourceFile;
    // If aSourceFile is omitted, we will use the file property of the SourceMap
    if (aSourceFile == null) {
      if (aSourceMapConsumer.file == null) {
        throw new Error(
          'SourceMapGenerator.prototype.applySourceMap requires either an explicit source file, ' +
          'or the source map\'s "file" property. Both were omitted.'
        );
      }
      sourceFile = aSourceMapConsumer.file;
    }
    var sourceRoot = this._sourceRoot;
    // Make "sourceFile" relative if an absolute Url is passed.
    if (sourceRoot != null) {
      sourceFile = util$2.relative(sourceRoot, sourceFile);
    }
    // Applying the SourceMap can add and remove items from the sources and
    // the names array.
    var newSources = new ArraySet$1();
    var newNames = new ArraySet$1();

    // Find mappings for the "sourceFile"
    this._mappings.unsortedForEach(function (mapping) {
      if (mapping.source === sourceFile && mapping.originalLine != null) {
        // Check if it can be mapped by the source map, then update the mapping.
        var original = aSourceMapConsumer.originalPositionFor({
          line: mapping.originalLine,
          column: mapping.originalColumn
        });
        if (original.source != null) {
          // Copy mapping
          mapping.source = original.source;
          if (aSourceMapPath != null) {
            mapping.source = util$2.join(aSourceMapPath, mapping.source);
          }
          if (sourceRoot != null) {
            mapping.source = util$2.relative(sourceRoot, mapping.source);
          }
          mapping.originalLine = original.line;
          mapping.originalColumn = original.column;
          if (original.name != null) {
            mapping.name = original.name;
          }
        }
      }

      var source = mapping.source;
      if (source != null && !newSources.has(source)) {
        newSources.add(source);
      }

      var name = mapping.name;
      if (name != null && !newNames.has(name)) {
        newNames.add(name);
      }

    }, this);
    this._sources = newSources;
    this._names = newNames;

    // Copy sourcesContents of applied map.
    aSourceMapConsumer.sources.forEach(function (sourceFile) {
      var content = aSourceMapConsumer.sourceContentFor(sourceFile);
      if (content != null) {
        if (aSourceMapPath != null) {
          sourceFile = util$2.join(aSourceMapPath, sourceFile);
        }
        if (sourceRoot != null) {
          sourceFile = util$2.relative(sourceRoot, sourceFile);
        }
        this.setSourceContent(sourceFile, content);
      }
    }, this);
  };

/**
 * A mapping can have one of the three levels of data:
 *
 *   1. Just the generated position.
 *   2. The Generated position, original position, and original source.
 *   3. Generated and original position, original source, as well as a name
 *      token.
 *
 * To maintain consistency, we validate that any new mapping being added falls
 * in to one of these categories.
 */
SourceMapGenerator$2.prototype._validateMapping =
  function SourceMapGenerator_validateMapping(aGenerated, aOriginal, aSource,
                                              aName) {
    // When aOriginal is truthy but has empty values for .line and .column,
    // it is most likely a programmer error. In this case we throw a very
    // specific error message to try to guide them the right way.
    // For example: https://github.com/Polymer/polymer-bundler/pull/519
    if (aOriginal && typeof aOriginal.line !== 'number' && typeof aOriginal.column !== 'number') {
        throw new Error(
            'original.line and original.column are not numbers -- you probably meant to omit ' +
            'the original mapping entirely and only map the generated position. If so, pass ' +
            'null for the original mapping instead of an object with empty or null values.'
        );
    }

    if (aGenerated && 'line' in aGenerated && 'column' in aGenerated
        && aGenerated.line > 0 && aGenerated.column >= 0
        && !aOriginal && !aSource && !aName) {
      // Case 1.
      return;
    }
    else if (aGenerated && 'line' in aGenerated && 'column' in aGenerated
             && aOriginal && 'line' in aOriginal && 'column' in aOriginal
             && aGenerated.line > 0 && aGenerated.column >= 0
             && aOriginal.line > 0 && aOriginal.column >= 0
             && aSource) {
      // Cases 2 and 3.
      return;
    }
    else {
      throw new Error('Invalid mapping: ' + JSON.stringify({
        generated: aGenerated,
        source: aSource,
        original: aOriginal,
        name: aName
      }));
    }
  };

/**
 * Serialize the accumulated mappings in to the stream of base 64 VLQs
 * specified by the source map format.
 */
SourceMapGenerator$2.prototype._serializeMappings =
  function SourceMapGenerator_serializeMappings() {
    var previousGeneratedColumn = 0;
    var previousGeneratedLine = 1;
    var previousOriginalColumn = 0;
    var previousOriginalLine = 0;
    var previousName = 0;
    var previousSource = 0;
    var result = '';
    var next;
    var mapping;
    var nameIdx;
    var sourceIdx;

    var mappings = this._mappings.toArray();
    for (var i = 0, len = mappings.length; i < len; i++) {
      mapping = mappings[i];
      next = '';

      if (mapping.generatedLine !== previousGeneratedLine) {
        previousGeneratedColumn = 0;
        while (mapping.generatedLine !== previousGeneratedLine) {
          next += ';';
          previousGeneratedLine++;
        }
      }
      else {
        if (i > 0) {
          if (!util$2.compareByGeneratedPositionsInflated(mapping, mappings[i - 1])) {
            continue;
          }
          next += ',';
        }
      }

      next += base64VLQ$1.encode(mapping.generatedColumn
                                 - previousGeneratedColumn);
      previousGeneratedColumn = mapping.generatedColumn;

      if (mapping.source != null) {
        sourceIdx = this._sources.indexOf(mapping.source);
        next += base64VLQ$1.encode(sourceIdx - previousSource);
        previousSource = sourceIdx;

        // lines are stored 0-based in SourceMap spec version 3
        next += base64VLQ$1.encode(mapping.originalLine - 1
                                   - previousOriginalLine);
        previousOriginalLine = mapping.originalLine - 1;

        next += base64VLQ$1.encode(mapping.originalColumn
                                   - previousOriginalColumn);
        previousOriginalColumn = mapping.originalColumn;

        if (mapping.name != null) {
          nameIdx = this._names.indexOf(mapping.name);
          next += base64VLQ$1.encode(nameIdx - previousName);
          previousName = nameIdx;
        }
      }

      result += next;
    }

    return result;
  };

SourceMapGenerator$2.prototype._generateSourcesContent =
  function SourceMapGenerator_generateSourcesContent(aSources, aSourceRoot) {
    return aSources.map(function (source) {
      if (!this._sourcesContents) {
        return null;
      }
      if (aSourceRoot != null) {
        source = util$2.relative(aSourceRoot, source);
      }
      var key = util$2.toSetString(source);
      return Object.prototype.hasOwnProperty.call(this._sourcesContents, key)
        ? this._sourcesContents[key]
        : null;
    }, this);
  };

/**
 * Externalize the source map.
 */
SourceMapGenerator$2.prototype.toJSON =
  function SourceMapGenerator_toJSON() {
    var map = {
      version: this._version,
      sources: this._sources.toArray(),
      names: this._names.toArray(),
      mappings: this._serializeMappings()
    };
    if (this._file != null) {
      map.file = this._file;
    }
    if (this._sourceRoot != null) {
      map.sourceRoot = this._sourceRoot;
    }
    if (this._sourcesContents) {
      map.sourcesContent = this._generateSourcesContent(map.sources, map.sourceRoot);
    }

    return map;
  };

/**
 * Render the source map being generated to a string.
 */
SourceMapGenerator$2.prototype.toString =
  function SourceMapGenerator_toString() {
    return JSON.stringify(this.toJSON());
  };

sourceMapGenerator.SourceMapGenerator = SourceMapGenerator$2;

var sourceMapConsumer = {};

var binarySearch$1 = {};

/* -*- Mode: js; js-indent-level: 2; -*- */

(function (exports) {
	/*
	 * Copyright 2011 Mozilla Foundation and contributors
	 * Licensed under the New BSD license. See LICENSE or:
	 * http://opensource.org/licenses/BSD-3-Clause
	 */

	exports.GREATEST_LOWER_BOUND = 1;
	exports.LEAST_UPPER_BOUND = 2;

	/**
	 * Recursive implementation of binary search.
	 *
	 * @param aLow Indices here and lower do not contain the needle.
	 * @param aHigh Indices here and higher do not contain the needle.
	 * @param aNeedle The element being searched for.
	 * @param aHaystack The non-empty array being searched.
	 * @param aCompare Function which takes two elements and returns -1, 0, or 1.
	 * @param aBias Either 'binarySearch.GREATEST_LOWER_BOUND' or
	 *     'binarySearch.LEAST_UPPER_BOUND'. Specifies whether to return the
	 *     closest element that is smaller than or greater than the one we are
	 *     searching for, respectively, if the exact element cannot be found.
	 */
	function recursiveSearch(aLow, aHigh, aNeedle, aHaystack, aCompare, aBias) {
	  // This function terminates when one of the following is true:
	  //
	  //   1. We find the exact element we are looking for.
	  //
	  //   2. We did not find the exact element, but we can return the index of
	  //      the next-closest element.
	  //
	  //   3. We did not find the exact element, and there is no next-closest
	  //      element than the one we are searching for, so we return -1.
	  var mid = Math.floor((aHigh - aLow) / 2) + aLow;
	  var cmp = aCompare(aNeedle, aHaystack[mid], true);
	  if (cmp === 0) {
	    // Found the element we are looking for.
	    return mid;
	  }
	  else if (cmp > 0) {
	    // Our needle is greater than aHaystack[mid].
	    if (aHigh - mid > 1) {
	      // The element is in the upper half.
	      return recursiveSearch(mid, aHigh, aNeedle, aHaystack, aCompare, aBias);
	    }

	    // The exact needle element was not found in this haystack. Determine if
	    // we are in termination case (3) or (2) and return the appropriate thing.
	    if (aBias == exports.LEAST_UPPER_BOUND) {
	      return aHigh < aHaystack.length ? aHigh : -1;
	    } else {
	      return mid;
	    }
	  }
	  else {
	    // Our needle is less than aHaystack[mid].
	    if (mid - aLow > 1) {
	      // The element is in the lower half.
	      return recursiveSearch(aLow, mid, aNeedle, aHaystack, aCompare, aBias);
	    }

	    // we are in termination case (3) or (2) and return the appropriate thing.
	    if (aBias == exports.LEAST_UPPER_BOUND) {
	      return mid;
	    } else {
	      return aLow < 0 ? -1 : aLow;
	    }
	  }
	}

	/**
	 * This is an implementation of binary search which will always try and return
	 * the index of the closest element if there is no exact hit. This is because
	 * mappings between original and generated line/col pairs are single points,
	 * and there is an implicit region between each of them, so a miss just means
	 * that you aren't on the very start of a region.
	 *
	 * @param aNeedle The element you are looking for.
	 * @param aHaystack The array that is being searched.
	 * @param aCompare A function which takes the needle and an element in the
	 *     array and returns -1, 0, or 1 depending on whether the needle is less
	 *     than, equal to, or greater than the element, respectively.
	 * @param aBias Either 'binarySearch.GREATEST_LOWER_BOUND' or
	 *     'binarySearch.LEAST_UPPER_BOUND'. Specifies whether to return the
	 *     closest element that is smaller than or greater than the one we are
	 *     searching for, respectively, if the exact element cannot be found.
	 *     Defaults to 'binarySearch.GREATEST_LOWER_BOUND'.
	 */
	exports.search = function search(aNeedle, aHaystack, aCompare, aBias) {
	  if (aHaystack.length === 0) {
	    return -1;
	  }

	  var index = recursiveSearch(-1, aHaystack.length, aNeedle, aHaystack,
	                              aCompare, aBias || exports.GREATEST_LOWER_BOUND);
	  if (index < 0) {
	    return -1;
	  }

	  // We have found either the exact element, or the next-closest element than
	  // the one we are searching for. However, there may be more than one such
	  // element. Make sure we always return the smallest of these.
	  while (index - 1 >= 0) {
	    if (aCompare(aHaystack[index], aHaystack[index - 1], true) !== 0) {
	      break;
	    }
	    --index;
	  }

	  return index;
	};
} (binarySearch$1));

var quickSort$1 = {};

/* -*- Mode: js; js-indent-level: 2; -*- */

/*
 * Copyright 2011 Mozilla Foundation and contributors
 * Licensed under the New BSD license. See LICENSE or:
 * http://opensource.org/licenses/BSD-3-Clause
 */

// It turns out that some (most?) JavaScript engines don't self-host
// `Array.prototype.sort`. This makes sense because C++ will likely remain
// faster than JS when doing raw CPU-intensive sorting. However, when using a
// custom comparator function, calling back and forth between the VM's C++ and
// JIT'd JS is rather slow *and* loses JIT type information, resulting in
// worse generated code for the comparator function than would be optimal. In
// fact, when sorting with a comparator, these costs outweigh the benefits of
// sorting in C++. By using our own JS-implemented Quick Sort (below), we get
// a ~3500ms mean speed-up in `bench/bench.html`.

/**
 * Swap the elements indexed by `x` and `y` in the array `ary`.
 *
 * @param {Array} ary
 *        The array.
 * @param {Number} x
 *        The index of the first item.
 * @param {Number} y
 *        The index of the second item.
 */
function swap(ary, x, y) {
  var temp = ary[x];
  ary[x] = ary[y];
  ary[y] = temp;
}

/**
 * Returns a random integer within the range `low .. high` inclusive.
 *
 * @param {Number} low
 *        The lower bound on the range.
 * @param {Number} high
 *        The upper bound on the range.
 */
function randomIntInRange(low, high) {
  return Math.round(low + (Math.random() * (high - low)));
}

/**
 * The Quick Sort algorithm.
 *
 * @param {Array} ary
 *        An array to sort.
 * @param {function} comparator
 *        Function to use to compare two items.
 * @param {Number} p
 *        Start index of the array
 * @param {Number} r
 *        End index of the array
 */
function doQuickSort(ary, comparator, p, r) {
  // If our lower bound is less than our upper bound, we (1) partition the
  // array into two pieces and (2) recurse on each half. If it is not, this is
  // the empty array and our base case.

  if (p < r) {
    // (1) Partitioning.
    //
    // The partitioning chooses a pivot between `p` and `r` and moves all
    // elements that are less than or equal to the pivot to the before it, and
    // all the elements that are greater than it after it. The effect is that
    // once partition is done, the pivot is in the exact place it will be when
    // the array is put in sorted order, and it will not need to be moved
    // again. This runs in O(n) time.

    // Always choose a random pivot so that an input array which is reverse
    // sorted does not cause O(n^2) running time.
    var pivotIndex = randomIntInRange(p, r);
    var i = p - 1;

    swap(ary, pivotIndex, r);
    var pivot = ary[r];

    // Immediately after `j` is incremented in this loop, the following hold
    // true:
    //
    //   * Every element in `ary[p .. i]` is less than or equal to the pivot.
    //
    //   * Every element in `ary[i+1 .. j-1]` is greater than the pivot.
    for (var j = p; j < r; j++) {
      if (comparator(ary[j], pivot) <= 0) {
        i += 1;
        swap(ary, i, j);
      }
    }

    swap(ary, i + 1, j);
    var q = i + 1;

    // (2) Recurse on each half.

    doQuickSort(ary, comparator, p, q - 1);
    doQuickSort(ary, comparator, q + 1, r);
  }
}

/**
 * Sort the given array in-place with the given comparator function.
 *
 * @param {Array} ary
 *        An array to sort.
 * @param {function} comparator
 *        Function to use to compare two items.
 */
quickSort$1.quickSort = function (ary, comparator) {
  doQuickSort(ary, comparator, 0, ary.length - 1);
};

/* -*- Mode: js; js-indent-level: 2; -*- */

/*
 * Copyright 2011 Mozilla Foundation and contributors
 * Licensed under the New BSD license. See LICENSE or:
 * http://opensource.org/licenses/BSD-3-Clause
 */

var util$1 = util$5;
var binarySearch = binarySearch$1;
var ArraySet = arraySet.ArraySet;
var base64VLQ = base64Vlq;
var quickSort = quickSort$1.quickSort;

function SourceMapConsumer$1(aSourceMap, aSourceMapURL) {
  var sourceMap = aSourceMap;
  if (typeof aSourceMap === 'string') {
    sourceMap = util$1.parseSourceMapInput(aSourceMap);
  }

  return sourceMap.sections != null
    ? new IndexedSourceMapConsumer(sourceMap, aSourceMapURL)
    : new BasicSourceMapConsumer(sourceMap, aSourceMapURL);
}

SourceMapConsumer$1.fromSourceMap = function(aSourceMap, aSourceMapURL) {
  return BasicSourceMapConsumer.fromSourceMap(aSourceMap, aSourceMapURL);
};

/**
 * The version of the source mapping spec that we are consuming.
 */
SourceMapConsumer$1.prototype._version = 3;

// `__generatedMappings` and `__originalMappings` are arrays that hold the
// parsed mapping coordinates from the source map's "mappings" attribute. They
// are lazily instantiated, accessed via the `_generatedMappings` and
// `_originalMappings` getters respectively, and we only parse the mappings
// and create these arrays once queried for a source location. We jump through
// these hoops because there can be many thousands of mappings, and parsing
// them is expensive, so we only want to do it if we must.
//
// Each object in the arrays is of the form:
//
//     {
//       generatedLine: The line number in the generated code,
//       generatedColumn: The column number in the generated code,
//       source: The path to the original source file that generated this
//               chunk of code,
//       originalLine: The line number in the original source that
//                     corresponds to this chunk of generated code,
//       originalColumn: The column number in the original source that
//                       corresponds to this chunk of generated code,
//       name: The name of the original symbol which generated this chunk of
//             code.
//     }
//
// All properties except for `generatedLine` and `generatedColumn` can be
// `null`.
//
// `_generatedMappings` is ordered by the generated positions.
//
// `_originalMappings` is ordered by the original positions.

SourceMapConsumer$1.prototype.__generatedMappings = null;
Object.defineProperty(SourceMapConsumer$1.prototype, '_generatedMappings', {
  configurable: true,
  enumerable: true,
  get: function () {
    if (!this.__generatedMappings) {
      this._parseMappings(this._mappings, this.sourceRoot);
    }

    return this.__generatedMappings;
  }
});

SourceMapConsumer$1.prototype.__originalMappings = null;
Object.defineProperty(SourceMapConsumer$1.prototype, '_originalMappings', {
  configurable: true,
  enumerable: true,
  get: function () {
    if (!this.__originalMappings) {
      this._parseMappings(this._mappings, this.sourceRoot);
    }

    return this.__originalMappings;
  }
});

SourceMapConsumer$1.prototype._charIsMappingSeparator =
  function SourceMapConsumer_charIsMappingSeparator(aStr, index) {
    var c = aStr.charAt(index);
    return c === ";" || c === ",";
  };

/**
 * Parse the mappings in a string in to a data structure which we can easily
 * query (the ordered arrays in the `this.__generatedMappings` and
 * `this.__originalMappings` properties).
 */
SourceMapConsumer$1.prototype._parseMappings =
  function SourceMapConsumer_parseMappings(aStr, aSourceRoot) {
    throw new Error("Subclasses must implement _parseMappings");
  };

SourceMapConsumer$1.GENERATED_ORDER = 1;
SourceMapConsumer$1.ORIGINAL_ORDER = 2;

SourceMapConsumer$1.GREATEST_LOWER_BOUND = 1;
SourceMapConsumer$1.LEAST_UPPER_BOUND = 2;

/**
 * Iterate over each mapping between an original source/line/column and a
 * generated line/column in this source map.
 *
 * @param Function aCallback
 *        The function that is called with each mapping.
 * @param Object aContext
 *        Optional. If specified, this object will be the value of `this` every
 *        time that `aCallback` is called.
 * @param aOrder
 *        Either `SourceMapConsumer.GENERATED_ORDER` or
 *        `SourceMapConsumer.ORIGINAL_ORDER`. Specifies whether you want to
 *        iterate over the mappings sorted by the generated file's line/column
 *        order or the original's source/line/column order, respectively. Defaults to
 *        `SourceMapConsumer.GENERATED_ORDER`.
 */
SourceMapConsumer$1.prototype.eachMapping =
  function SourceMapConsumer_eachMapping(aCallback, aContext, aOrder) {
    var context = aContext || null;
    var order = aOrder || SourceMapConsumer$1.GENERATED_ORDER;

    var mappings;
    switch (order) {
    case SourceMapConsumer$1.GENERATED_ORDER:
      mappings = this._generatedMappings;
      break;
    case SourceMapConsumer$1.ORIGINAL_ORDER:
      mappings = this._originalMappings;
      break;
    default:
      throw new Error("Unknown order of iteration.");
    }

    var sourceRoot = this.sourceRoot;
    mappings.map(function (mapping) {
      var source = mapping.source === null ? null : this._sources.at(mapping.source);
      source = util$1.computeSourceURL(sourceRoot, source, this._sourceMapURL);
      return {
        source: source,
        generatedLine: mapping.generatedLine,
        generatedColumn: mapping.generatedColumn,
        originalLine: mapping.originalLine,
        originalColumn: mapping.originalColumn,
        name: mapping.name === null ? null : this._names.at(mapping.name)
      };
    }, this).forEach(aCallback, context);
  };

/**
 * Returns all generated line and column information for the original source,
 * line, and column provided. If no column is provided, returns all mappings
 * corresponding to a either the line we are searching for or the next
 * closest line that has any mappings. Otherwise, returns all mappings
 * corresponding to the given line and either the column we are searching for
 * or the next closest column that has any offsets.
 *
 * The only argument is an object with the following properties:
 *
 *   - source: The filename of the original source.
 *   - line: The line number in the original source.  The line number is 1-based.
 *   - column: Optional. the column number in the original source.
 *    The column number is 0-based.
 *
 * and an array of objects is returned, each with the following properties:
 *
 *   - line: The line number in the generated source, or null.  The
 *    line number is 1-based.
 *   - column: The column number in the generated source, or null.
 *    The column number is 0-based.
 */
SourceMapConsumer$1.prototype.allGeneratedPositionsFor =
  function SourceMapConsumer_allGeneratedPositionsFor(aArgs) {
    var line = util$1.getArg(aArgs, 'line');

    // When there is no exact match, BasicSourceMapConsumer.prototype._findMapping
    // returns the index of the closest mapping less than the needle. By
    // setting needle.originalColumn to 0, we thus find the last mapping for
    // the given line, provided such a mapping exists.
    var needle = {
      source: util$1.getArg(aArgs, 'source'),
      originalLine: line,
      originalColumn: util$1.getArg(aArgs, 'column', 0)
    };

    needle.source = this._findSourceIndex(needle.source);
    if (needle.source < 0) {
      return [];
    }

    var mappings = [];

    var index = this._findMapping(needle,
                                  this._originalMappings,
                                  "originalLine",
                                  "originalColumn",
                                  util$1.compareByOriginalPositions,
                                  binarySearch.LEAST_UPPER_BOUND);
    if (index >= 0) {
      var mapping = this._originalMappings[index];

      if (aArgs.column === undefined) {
        var originalLine = mapping.originalLine;

        // Iterate until either we run out of mappings, or we run into
        // a mapping for a different line than the one we found. Since
        // mappings are sorted, this is guaranteed to find all mappings for
        // the line we found.
        while (mapping && mapping.originalLine === originalLine) {
          mappings.push({
            line: util$1.getArg(mapping, 'generatedLine', null),
            column: util$1.getArg(mapping, 'generatedColumn', null),
            lastColumn: util$1.getArg(mapping, 'lastGeneratedColumn', null)
          });

          mapping = this._originalMappings[++index];
        }
      } else {
        var originalColumn = mapping.originalColumn;

        // Iterate until either we run out of mappings, or we run into
        // a mapping for a different line than the one we were searching for.
        // Since mappings are sorted, this is guaranteed to find all mappings for
        // the line we are searching for.
        while (mapping &&
               mapping.originalLine === line &&
               mapping.originalColumn == originalColumn) {
          mappings.push({
            line: util$1.getArg(mapping, 'generatedLine', null),
            column: util$1.getArg(mapping, 'generatedColumn', null),
            lastColumn: util$1.getArg(mapping, 'lastGeneratedColumn', null)
          });

          mapping = this._originalMappings[++index];
        }
      }
    }

    return mappings;
  };

sourceMapConsumer.SourceMapConsumer = SourceMapConsumer$1;

/**
 * A BasicSourceMapConsumer instance represents a parsed source map which we can
 * query for information about the original file positions by giving it a file
 * position in the generated source.
 *
 * The first parameter is the raw source map (either as a JSON string, or
 * already parsed to an object). According to the spec, source maps have the
 * following attributes:
 *
 *   - version: Which version of the source map spec this map is following.
 *   - sources: An array of URLs to the original source files.
 *   - names: An array of identifiers which can be referrenced by individual mappings.
 *   - sourceRoot: Optional. The URL root from which all sources are relative.
 *   - sourcesContent: Optional. An array of contents of the original source files.
 *   - mappings: A string of base64 VLQs which contain the actual mappings.
 *   - file: Optional. The generated file this source map is associated with.
 *
 * Here is an example source map, taken from the source map spec[0]:
 *
 *     {
 *       version : 3,
 *       file: "out.js",
 *       sourceRoot : "",
 *       sources: ["foo.js", "bar.js"],
 *       names: ["src", "maps", "are", "fun"],
 *       mappings: "AA,AB;;ABCDE;"
 *     }
 *
 * The second parameter, if given, is a string whose value is the URL
 * at which the source map was found.  This URL is used to compute the
 * sources array.
 *
 * [0]: https://docs.google.com/document/d/1U1RGAehQwRypUTovF1KRlpiOFze0b-_2gc6fAH0KY0k/edit?pli=1#
 */
function BasicSourceMapConsumer(aSourceMap, aSourceMapURL) {
  var sourceMap = aSourceMap;
  if (typeof aSourceMap === 'string') {
    sourceMap = util$1.parseSourceMapInput(aSourceMap);
  }

  var version = util$1.getArg(sourceMap, 'version');
  var sources = util$1.getArg(sourceMap, 'sources');
  // Sass 3.3 leaves out the 'names' array, so we deviate from the spec (which
  // requires the array) to play nice here.
  var names = util$1.getArg(sourceMap, 'names', []);
  var sourceRoot = util$1.getArg(sourceMap, 'sourceRoot', null);
  var sourcesContent = util$1.getArg(sourceMap, 'sourcesContent', null);
  var mappings = util$1.getArg(sourceMap, 'mappings');
  var file = util$1.getArg(sourceMap, 'file', null);

  // Once again, Sass deviates from the spec and supplies the version as a
  // string rather than a number, so we use loose equality checking here.
  if (version != this._version) {
    throw new Error('Unsupported version: ' + version);
  }

  if (sourceRoot) {
    sourceRoot = util$1.normalize(sourceRoot);
  }

  sources = sources
    .map(String)
    // Some source maps produce relative source paths like "./foo.js" instead of
    // "foo.js".  Normalize these first so that future comparisons will succeed.
    // See bugzil.la/1090768.
    .map(util$1.normalize)
    // Always ensure that absolute sources are internally stored relative to
    // the source root, if the source root is absolute. Not doing this would
    // be particularly problematic when the source root is a prefix of the
    // source (valid, but why??). See github issue #199 and bugzil.la/1188982.
    .map(function (source) {
      return sourceRoot && util$1.isAbsolute(sourceRoot) && util$1.isAbsolute(source)
        ? util$1.relative(sourceRoot, source)
        : source;
    });

  // Pass `true` below to allow duplicate names and sources. While source maps
  // are intended to be compressed and deduplicated, the TypeScript compiler
  // sometimes generates source maps with duplicates in them. See Github issue
  // #72 and bugzil.la/889492.
  this._names = ArraySet.fromArray(names.map(String), true);
  this._sources = ArraySet.fromArray(sources, true);

  this._absoluteSources = this._sources.toArray().map(function (s) {
    return util$1.computeSourceURL(sourceRoot, s, aSourceMapURL);
  });

  this.sourceRoot = sourceRoot;
  this.sourcesContent = sourcesContent;
  this._mappings = mappings;
  this._sourceMapURL = aSourceMapURL;
  this.file = file;
}

BasicSourceMapConsumer.prototype = Object.create(SourceMapConsumer$1.prototype);
BasicSourceMapConsumer.prototype.consumer = SourceMapConsumer$1;

/**
 * Utility function to find the index of a source.  Returns -1 if not
 * found.
 */
BasicSourceMapConsumer.prototype._findSourceIndex = function(aSource) {
  var relativeSource = aSource;
  if (this.sourceRoot != null) {
    relativeSource = util$1.relative(this.sourceRoot, relativeSource);
  }

  if (this._sources.has(relativeSource)) {
    return this._sources.indexOf(relativeSource);
  }

  // Maybe aSource is an absolute URL as returned by |sources|.  In
  // this case we can't simply undo the transform.
  var i;
  for (i = 0; i < this._absoluteSources.length; ++i) {
    if (this._absoluteSources[i] == aSource) {
      return i;
    }
  }

  return -1;
};

/**
 * Create a BasicSourceMapConsumer from a SourceMapGenerator.
 *
 * @param SourceMapGenerator aSourceMap
 *        The source map that will be consumed.
 * @param String aSourceMapURL
 *        The URL at which the source map can be found (optional)
 * @returns BasicSourceMapConsumer
 */
BasicSourceMapConsumer.fromSourceMap =
  function SourceMapConsumer_fromSourceMap(aSourceMap, aSourceMapURL) {
    var smc = Object.create(BasicSourceMapConsumer.prototype);

    var names = smc._names = ArraySet.fromArray(aSourceMap._names.toArray(), true);
    var sources = smc._sources = ArraySet.fromArray(aSourceMap._sources.toArray(), true);
    smc.sourceRoot = aSourceMap._sourceRoot;
    smc.sourcesContent = aSourceMap._generateSourcesContent(smc._sources.toArray(),
                                                            smc.sourceRoot);
    smc.file = aSourceMap._file;
    smc._sourceMapURL = aSourceMapURL;
    smc._absoluteSources = smc._sources.toArray().map(function (s) {
      return util$1.computeSourceURL(smc.sourceRoot, s, aSourceMapURL);
    });

    // Because we are modifying the entries (by converting string sources and
    // names to indices into the sources and names ArraySets), we have to make
    // a copy of the entry or else bad things happen. Shared mutable state
    // strikes again! See github issue #191.

    var generatedMappings = aSourceMap._mappings.toArray().slice();
    var destGeneratedMappings = smc.__generatedMappings = [];
    var destOriginalMappings = smc.__originalMappings = [];

    for (var i = 0, length = generatedMappings.length; i < length; i++) {
      var srcMapping = generatedMappings[i];
      var destMapping = new Mapping;
      destMapping.generatedLine = srcMapping.generatedLine;
      destMapping.generatedColumn = srcMapping.generatedColumn;

      if (srcMapping.source) {
        destMapping.source = sources.indexOf(srcMapping.source);
        destMapping.originalLine = srcMapping.originalLine;
        destMapping.originalColumn = srcMapping.originalColumn;

        if (srcMapping.name) {
          destMapping.name = names.indexOf(srcMapping.name);
        }

        destOriginalMappings.push(destMapping);
      }

      destGeneratedMappings.push(destMapping);
    }

    quickSort(smc.__originalMappings, util$1.compareByOriginalPositions);

    return smc;
  };

/**
 * The version of the source mapping spec that we are consuming.
 */
BasicSourceMapConsumer.prototype._version = 3;

/**
 * The list of original sources.
 */
Object.defineProperty(BasicSourceMapConsumer.prototype, 'sources', {
  get: function () {
    return this._absoluteSources.slice();
  }
});

/**
 * Provide the JIT with a nice shape / hidden class.
 */
function Mapping() {
  this.generatedLine = 0;
  this.generatedColumn = 0;
  this.source = null;
  this.originalLine = null;
  this.originalColumn = null;
  this.name = null;
}

/**
 * Parse the mappings in a string in to a data structure which we can easily
 * query (the ordered arrays in the `this.__generatedMappings` and
 * `this.__originalMappings` properties).
 */
BasicSourceMapConsumer.prototype._parseMappings =
  function SourceMapConsumer_parseMappings(aStr, aSourceRoot) {
    var generatedLine = 1;
    var previousGeneratedColumn = 0;
    var previousOriginalLine = 0;
    var previousOriginalColumn = 0;
    var previousSource = 0;
    var previousName = 0;
    var length = aStr.length;
    var index = 0;
    var cachedSegments = {};
    var temp = {};
    var originalMappings = [];
    var generatedMappings = [];
    var mapping, str, segment, end, value;

    while (index < length) {
      if (aStr.charAt(index) === ';') {
        generatedLine++;
        index++;
        previousGeneratedColumn = 0;
      }
      else if (aStr.charAt(index) === ',') {
        index++;
      }
      else {
        mapping = new Mapping();
        mapping.generatedLine = generatedLine;

        // Because each offset is encoded relative to the previous one,
        // many segments often have the same encoding. We can exploit this
        // fact by caching the parsed variable length fields of each segment,
        // allowing us to avoid a second parse if we encounter the same
        // segment again.
        for (end = index; end < length; end++) {
          if (this._charIsMappingSeparator(aStr, end)) {
            break;
          }
        }
        str = aStr.slice(index, end);

        segment = cachedSegments[str];
        if (segment) {
          index += str.length;
        } else {
          segment = [];
          while (index < end) {
            base64VLQ.decode(aStr, index, temp);
            value = temp.value;
            index = temp.rest;
            segment.push(value);
          }

          if (segment.length === 2) {
            throw new Error('Found a source, but no line and column');
          }

          if (segment.length === 3) {
            throw new Error('Found a source and line, but no column');
          }

          cachedSegments[str] = segment;
        }

        // Generated column.
        mapping.generatedColumn = previousGeneratedColumn + segment[0];
        previousGeneratedColumn = mapping.generatedColumn;

        if (segment.length > 1) {
          // Original source.
          mapping.source = previousSource + segment[1];
          previousSource += segment[1];

          // Original line.
          mapping.originalLine = previousOriginalLine + segment[2];
          previousOriginalLine = mapping.originalLine;
          // Lines are stored 0-based
          mapping.originalLine += 1;

          // Original column.
          mapping.originalColumn = previousOriginalColumn + segment[3];
          previousOriginalColumn = mapping.originalColumn;

          if (segment.length > 4) {
            // Original name.
            mapping.name = previousName + segment[4];
            previousName += segment[4];
          }
        }

        generatedMappings.push(mapping);
        if (typeof mapping.originalLine === 'number') {
          originalMappings.push(mapping);
        }
      }
    }

    quickSort(generatedMappings, util$1.compareByGeneratedPositionsDeflated);
    this.__generatedMappings = generatedMappings;

    quickSort(originalMappings, util$1.compareByOriginalPositions);
    this.__originalMappings = originalMappings;
  };

/**
 * Find the mapping that best matches the hypothetical "needle" mapping that
 * we are searching for in the given "haystack" of mappings.
 */
BasicSourceMapConsumer.prototype._findMapping =
  function SourceMapConsumer_findMapping(aNeedle, aMappings, aLineName,
                                         aColumnName, aComparator, aBias) {
    // To return the position we are searching for, we must first find the
    // mapping for the given position and then return the opposite position it
    // points to. Because the mappings are sorted, we can use binary search to
    // find the best mapping.

    if (aNeedle[aLineName] <= 0) {
      throw new TypeError('Line must be greater than or equal to 1, got '
                          + aNeedle[aLineName]);
    }
    if (aNeedle[aColumnName] < 0) {
      throw new TypeError('Column must be greater than or equal to 0, got '
                          + aNeedle[aColumnName]);
    }

    return binarySearch.search(aNeedle, aMappings, aComparator, aBias);
  };

/**
 * Compute the last column for each generated mapping. The last column is
 * inclusive.
 */
BasicSourceMapConsumer.prototype.computeColumnSpans =
  function SourceMapConsumer_computeColumnSpans() {
    for (var index = 0; index < this._generatedMappings.length; ++index) {
      var mapping = this._generatedMappings[index];

      // Mappings do not contain a field for the last generated columnt. We
      // can come up with an optimistic estimate, however, by assuming that
      // mappings are contiguous (i.e. given two consecutive mappings, the
      // first mapping ends where the second one starts).
      if (index + 1 < this._generatedMappings.length) {
        var nextMapping = this._generatedMappings[index + 1];

        if (mapping.generatedLine === nextMapping.generatedLine) {
          mapping.lastGeneratedColumn = nextMapping.generatedColumn - 1;
          continue;
        }
      }

      // The last mapping for each line spans the entire line.
      mapping.lastGeneratedColumn = Infinity;
    }
  };

/**
 * Returns the original source, line, and column information for the generated
 * source's line and column positions provided. The only argument is an object
 * with the following properties:
 *
 *   - line: The line number in the generated source.  The line number
 *     is 1-based.
 *   - column: The column number in the generated source.  The column
 *     number is 0-based.
 *   - bias: Either 'SourceMapConsumer.GREATEST_LOWER_BOUND' or
 *     'SourceMapConsumer.LEAST_UPPER_BOUND'. Specifies whether to return the
 *     closest element that is smaller than or greater than the one we are
 *     searching for, respectively, if the exact element cannot be found.
 *     Defaults to 'SourceMapConsumer.GREATEST_LOWER_BOUND'.
 *
 * and an object is returned with the following properties:
 *
 *   - source: The original source file, or null.
 *   - line: The line number in the original source, or null.  The
 *     line number is 1-based.
 *   - column: The column number in the original source, or null.  The
 *     column number is 0-based.
 *   - name: The original identifier, or null.
 */
BasicSourceMapConsumer.prototype.originalPositionFor =
  function SourceMapConsumer_originalPositionFor(aArgs) {
    var needle = {
      generatedLine: util$1.getArg(aArgs, 'line'),
      generatedColumn: util$1.getArg(aArgs, 'column')
    };

    var index = this._findMapping(
      needle,
      this._generatedMappings,
      "generatedLine",
      "generatedColumn",
      util$1.compareByGeneratedPositionsDeflated,
      util$1.getArg(aArgs, 'bias', SourceMapConsumer$1.GREATEST_LOWER_BOUND)
    );

    if (index >= 0) {
      var mapping = this._generatedMappings[index];

      if (mapping.generatedLine === needle.generatedLine) {
        var source = util$1.getArg(mapping, 'source', null);
        if (source !== null) {
          source = this._sources.at(source);
          source = util$1.computeSourceURL(this.sourceRoot, source, this._sourceMapURL);
        }
        var name = util$1.getArg(mapping, 'name', null);
        if (name !== null) {
          name = this._names.at(name);
        }
        return {
          source: source,
          line: util$1.getArg(mapping, 'originalLine', null),
          column: util$1.getArg(mapping, 'originalColumn', null),
          name: name
        };
      }
    }

    return {
      source: null,
      line: null,
      column: null,
      name: null
    };
  };

/**
 * Return true if we have the source content for every source in the source
 * map, false otherwise.
 */
BasicSourceMapConsumer.prototype.hasContentsOfAllSources =
  function BasicSourceMapConsumer_hasContentsOfAllSources() {
    if (!this.sourcesContent) {
      return false;
    }
    return this.sourcesContent.length >= this._sources.size() &&
      !this.sourcesContent.some(function (sc) { return sc == null; });
  };

/**
 * Returns the original source content. The only argument is the url of the
 * original source file. Returns null if no original source content is
 * available.
 */
BasicSourceMapConsumer.prototype.sourceContentFor =
  function SourceMapConsumer_sourceContentFor(aSource, nullOnMissing) {
    if (!this.sourcesContent) {
      return null;
    }

    var index = this._findSourceIndex(aSource);
    if (index >= 0) {
      return this.sourcesContent[index];
    }

    var relativeSource = aSource;
    if (this.sourceRoot != null) {
      relativeSource = util$1.relative(this.sourceRoot, relativeSource);
    }

    var url;
    if (this.sourceRoot != null
        && (url = util$1.urlParse(this.sourceRoot))) {
      // XXX: file:// URIs and absolute paths lead to unexpected behavior for
      // many users. We can help them out when they expect file:// URIs to
      // behave like it would if they were running a local HTTP server. See
      // https://bugzilla.mozilla.org/show_bug.cgi?id=885597.
      var fileUriAbsPath = relativeSource.replace(/^file:\/\//, "");
      if (url.scheme == "file"
          && this._sources.has(fileUriAbsPath)) {
        return this.sourcesContent[this._sources.indexOf(fileUriAbsPath)]
      }

      if ((!url.path || url.path == "/")
          && this._sources.has("/" + relativeSource)) {
        return this.sourcesContent[this._sources.indexOf("/" + relativeSource)];
      }
    }

    // This function is used recursively from
    // IndexedSourceMapConsumer.prototype.sourceContentFor. In that case, we
    // don't want to throw if we can't find the source - we just want to
    // return null, so we provide a flag to exit gracefully.
    if (nullOnMissing) {
      return null;
    }
    else {
      throw new Error('"' + relativeSource + '" is not in the SourceMap.');
    }
  };

/**
 * Returns the generated line and column information for the original source,
 * line, and column positions provided. The only argument is an object with
 * the following properties:
 *
 *   - source: The filename of the original source.
 *   - line: The line number in the original source.  The line number
 *     is 1-based.
 *   - column: The column number in the original source.  The column
 *     number is 0-based.
 *   - bias: Either 'SourceMapConsumer.GREATEST_LOWER_BOUND' or
 *     'SourceMapConsumer.LEAST_UPPER_BOUND'. Specifies whether to return the
 *     closest element that is smaller than or greater than the one we are
 *     searching for, respectively, if the exact element cannot be found.
 *     Defaults to 'SourceMapConsumer.GREATEST_LOWER_BOUND'.
 *
 * and an object is returned with the following properties:
 *
 *   - line: The line number in the generated source, or null.  The
 *     line number is 1-based.
 *   - column: The column number in the generated source, or null.
 *     The column number is 0-based.
 */
BasicSourceMapConsumer.prototype.generatedPositionFor =
  function SourceMapConsumer_generatedPositionFor(aArgs) {
    var source = util$1.getArg(aArgs, 'source');
    source = this._findSourceIndex(source);
    if (source < 0) {
      return {
        line: null,
        column: null,
        lastColumn: null
      };
    }

    var needle = {
      source: source,
      originalLine: util$1.getArg(aArgs, 'line'),
      originalColumn: util$1.getArg(aArgs, 'column')
    };

    var index = this._findMapping(
      needle,
      this._originalMappings,
      "originalLine",
      "originalColumn",
      util$1.compareByOriginalPositions,
      util$1.getArg(aArgs, 'bias', SourceMapConsumer$1.GREATEST_LOWER_BOUND)
    );

    if (index >= 0) {
      var mapping = this._originalMappings[index];

      if (mapping.source === needle.source) {
        return {
          line: util$1.getArg(mapping, 'generatedLine', null),
          column: util$1.getArg(mapping, 'generatedColumn', null),
          lastColumn: util$1.getArg(mapping, 'lastGeneratedColumn', null)
        };
      }
    }

    return {
      line: null,
      column: null,
      lastColumn: null
    };
  };

sourceMapConsumer.BasicSourceMapConsumer = BasicSourceMapConsumer;

/**
 * An IndexedSourceMapConsumer instance represents a parsed source map which
 * we can query for information. It differs from BasicSourceMapConsumer in
 * that it takes "indexed" source maps (i.e. ones with a "sections" field) as
 * input.
 *
 * The first parameter is a raw source map (either as a JSON string, or already
 * parsed to an object). According to the spec for indexed source maps, they
 * have the following attributes:
 *
 *   - version: Which version of the source map spec this map is following.
 *   - file: Optional. The generated file this source map is associated with.
 *   - sections: A list of section definitions.
 *
 * Each value under the "sections" field has two fields:
 *   - offset: The offset into the original specified at which this section
 *       begins to apply, defined as an object with a "line" and "column"
 *       field.
 *   - map: A source map definition. This source map could also be indexed,
 *       but doesn't have to be.
 *
 * Instead of the "map" field, it's also possible to have a "url" field
 * specifying a URL to retrieve a source map from, but that's currently
 * unsupported.
 *
 * Here's an example source map, taken from the source map spec[0], but
 * modified to omit a section which uses the "url" field.
 *
 *  {
 *    version : 3,
 *    file: "app.js",
 *    sections: [{
 *      offset: {line:100, column:10},
 *      map: {
 *        version : 3,
 *        file: "section.js",
 *        sources: ["foo.js", "bar.js"],
 *        names: ["src", "maps", "are", "fun"],
 *        mappings: "AAAA,E;;ABCDE;"
 *      }
 *    }],
 *  }
 *
 * The second parameter, if given, is a string whose value is the URL
 * at which the source map was found.  This URL is used to compute the
 * sources array.
 *
 * [0]: https://docs.google.com/document/d/1U1RGAehQwRypUTovF1KRlpiOFze0b-_2gc6fAH0KY0k/edit#heading=h.535es3xeprgt
 */
function IndexedSourceMapConsumer(aSourceMap, aSourceMapURL) {
  var sourceMap = aSourceMap;
  if (typeof aSourceMap === 'string') {
    sourceMap = util$1.parseSourceMapInput(aSourceMap);
  }

  var version = util$1.getArg(sourceMap, 'version');
  var sections = util$1.getArg(sourceMap, 'sections');

  if (version != this._version) {
    throw new Error('Unsupported version: ' + version);
  }

  this._sources = new ArraySet();
  this._names = new ArraySet();

  var lastOffset = {
    line: -1,
    column: 0
  };
  this._sections = sections.map(function (s) {
    if (s.url) {
      // The url field will require support for asynchronicity.
      // See https://github.com/mozilla/source-map/issues/16
      throw new Error('Support for url field in sections not implemented.');
    }
    var offset = util$1.getArg(s, 'offset');
    var offsetLine = util$1.getArg(offset, 'line');
    var offsetColumn = util$1.getArg(offset, 'column');

    if (offsetLine < lastOffset.line ||
        (offsetLine === lastOffset.line && offsetColumn < lastOffset.column)) {
      throw new Error('Section offsets must be ordered and non-overlapping.');
    }
    lastOffset = offset;

    return {
      generatedOffset: {
        // The offset fields are 0-based, but we use 1-based indices when
        // encoding/decoding from VLQ.
        generatedLine: offsetLine + 1,
        generatedColumn: offsetColumn + 1
      },
      consumer: new SourceMapConsumer$1(util$1.getArg(s, 'map'), aSourceMapURL)
    }
  });
}

IndexedSourceMapConsumer.prototype = Object.create(SourceMapConsumer$1.prototype);
IndexedSourceMapConsumer.prototype.constructor = SourceMapConsumer$1;

/**
 * The version of the source mapping spec that we are consuming.
 */
IndexedSourceMapConsumer.prototype._version = 3;

/**
 * The list of original sources.
 */
Object.defineProperty(IndexedSourceMapConsumer.prototype, 'sources', {
  get: function () {
    var sources = [];
    for (var i = 0; i < this._sections.length; i++) {
      for (var j = 0; j < this._sections[i].consumer.sources.length; j++) {
        sources.push(this._sections[i].consumer.sources[j]);
      }
    }
    return sources;
  }
});

/**
 * Returns the original source, line, and column information for the generated
 * source's line and column positions provided. The only argument is an object
 * with the following properties:
 *
 *   - line: The line number in the generated source.  The line number
 *     is 1-based.
 *   - column: The column number in the generated source.  The column
 *     number is 0-based.
 *
 * and an object is returned with the following properties:
 *
 *   - source: The original source file, or null.
 *   - line: The line number in the original source, or null.  The
 *     line number is 1-based.
 *   - column: The column number in the original source, or null.  The
 *     column number is 0-based.
 *   - name: The original identifier, or null.
 */
IndexedSourceMapConsumer.prototype.originalPositionFor =
  function IndexedSourceMapConsumer_originalPositionFor(aArgs) {
    var needle = {
      generatedLine: util$1.getArg(aArgs, 'line'),
      generatedColumn: util$1.getArg(aArgs, 'column')
    };

    // Find the section containing the generated position we're trying to map
    // to an original position.
    var sectionIndex = binarySearch.search(needle, this._sections,
      function(needle, section) {
        var cmp = needle.generatedLine - section.generatedOffset.generatedLine;
        if (cmp) {
          return cmp;
        }

        return (needle.generatedColumn -
                section.generatedOffset.generatedColumn);
      });
    var section = this._sections[sectionIndex];

    if (!section) {
      return {
        source: null,
        line: null,
        column: null,
        name: null
      };
    }

    return section.consumer.originalPositionFor({
      line: needle.generatedLine -
        (section.generatedOffset.generatedLine - 1),
      column: needle.generatedColumn -
        (section.generatedOffset.generatedLine === needle.generatedLine
         ? section.generatedOffset.generatedColumn - 1
         : 0),
      bias: aArgs.bias
    });
  };

/**
 * Return true if we have the source content for every source in the source
 * map, false otherwise.
 */
IndexedSourceMapConsumer.prototype.hasContentsOfAllSources =
  function IndexedSourceMapConsumer_hasContentsOfAllSources() {
    return this._sections.every(function (s) {
      return s.consumer.hasContentsOfAllSources();
    });
  };

/**
 * Returns the original source content. The only argument is the url of the
 * original source file. Returns null if no original source content is
 * available.
 */
IndexedSourceMapConsumer.prototype.sourceContentFor =
  function IndexedSourceMapConsumer_sourceContentFor(aSource, nullOnMissing) {
    for (var i = 0; i < this._sections.length; i++) {
      var section = this._sections[i];

      var content = section.consumer.sourceContentFor(aSource, true);
      if (content) {
        return content;
      }
    }
    if (nullOnMissing) {
      return null;
    }
    else {
      throw new Error('"' + aSource + '" is not in the SourceMap.');
    }
  };

/**
 * Returns the generated line and column information for the original source,
 * line, and column positions provided. The only argument is an object with
 * the following properties:
 *
 *   - source: The filename of the original source.
 *   - line: The line number in the original source.  The line number
 *     is 1-based.
 *   - column: The column number in the original source.  The column
 *     number is 0-based.
 *
 * and an object is returned with the following properties:
 *
 *   - line: The line number in the generated source, or null.  The
 *     line number is 1-based. 
 *   - column: The column number in the generated source, or null.
 *     The column number is 0-based.
 */
IndexedSourceMapConsumer.prototype.generatedPositionFor =
  function IndexedSourceMapConsumer_generatedPositionFor(aArgs) {
    for (var i = 0; i < this._sections.length; i++) {
      var section = this._sections[i];

      // Only consider this section if the requested source is in the list of
      // sources of the consumer.
      if (section.consumer._findSourceIndex(util$1.getArg(aArgs, 'source')) === -1) {
        continue;
      }
      var generatedPosition = section.consumer.generatedPositionFor(aArgs);
      if (generatedPosition) {
        var ret = {
          line: generatedPosition.line +
            (section.generatedOffset.generatedLine - 1),
          column: generatedPosition.column +
            (section.generatedOffset.generatedLine === generatedPosition.line
             ? section.generatedOffset.generatedColumn - 1
             : 0)
        };
        return ret;
      }
    }

    return {
      line: null,
      column: null
    };
  };

/**
 * Parse the mappings in a string in to a data structure which we can easily
 * query (the ordered arrays in the `this.__generatedMappings` and
 * `this.__originalMappings` properties).
 */
IndexedSourceMapConsumer.prototype._parseMappings =
  function IndexedSourceMapConsumer_parseMappings(aStr, aSourceRoot) {
    this.__generatedMappings = [];
    this.__originalMappings = [];
    for (var i = 0; i < this._sections.length; i++) {
      var section = this._sections[i];
      var sectionMappings = section.consumer._generatedMappings;
      for (var j = 0; j < sectionMappings.length; j++) {
        var mapping = sectionMappings[j];

        var source = section.consumer._sources.at(mapping.source);
        source = util$1.computeSourceURL(section.consumer.sourceRoot, source, this._sourceMapURL);
        this._sources.add(source);
        source = this._sources.indexOf(source);

        var name = null;
        if (mapping.name) {
          name = section.consumer._names.at(mapping.name);
          this._names.add(name);
          name = this._names.indexOf(name);
        }

        // The mappings coming from the consumer for the section have
        // generated positions relative to the start of the section, so we
        // need to offset them to be relative to the start of the concatenated
        // generated file.
        var adjustedMapping = {
          source: source,
          generatedLine: mapping.generatedLine +
            (section.generatedOffset.generatedLine - 1),
          generatedColumn: mapping.generatedColumn +
            (section.generatedOffset.generatedLine === mapping.generatedLine
            ? section.generatedOffset.generatedColumn - 1
            : 0),
          originalLine: mapping.originalLine,
          originalColumn: mapping.originalColumn,
          name: name
        };

        this.__generatedMappings.push(adjustedMapping);
        if (typeof adjustedMapping.originalLine === 'number') {
          this.__originalMappings.push(adjustedMapping);
        }
      }
    }

    quickSort(this.__generatedMappings, util$1.compareByGeneratedPositionsDeflated);
    quickSort(this.__originalMappings, util$1.compareByOriginalPositions);
  };

sourceMapConsumer.IndexedSourceMapConsumer = IndexedSourceMapConsumer;

var sourceNode = {};

/* -*- Mode: js; js-indent-level: 2; -*- */

/*
 * Copyright 2011 Mozilla Foundation and contributors
 * Licensed under the New BSD license. See LICENSE or:
 * http://opensource.org/licenses/BSD-3-Clause
 */

var SourceMapGenerator$1 = sourceMapGenerator.SourceMapGenerator;
var util = util$5;

// Matches a Windows-style `\r\n` newline or a `\n` newline used by all other
// operating systems these days (capturing the result).
var REGEX_NEWLINE = /(\r?\n)/;

// Newline character code for charCodeAt() comparisons
var NEWLINE_CODE = 10;

// Private symbol for identifying `SourceNode`s when multiple versions of
// the source-map library are loaded. This MUST NOT CHANGE across
// versions!
var isSourceNode = "$$$isSourceNode$$$";

/**
 * SourceNodes provide a way to abstract over interpolating/concatenating
 * snippets of generated JavaScript source code while maintaining the line and
 * column information associated with the original source code.
 *
 * @param aLine The original line number.
 * @param aColumn The original column number.
 * @param aSource The original source's filename.
 * @param aChunks Optional. An array of strings which are snippets of
 *        generated JS, or other SourceNodes.
 * @param aName The original identifier.
 */
function SourceNode(aLine, aColumn, aSource, aChunks, aName) {
  this.children = [];
  this.sourceContents = {};
  this.line = aLine == null ? null : aLine;
  this.column = aColumn == null ? null : aColumn;
  this.source = aSource == null ? null : aSource;
  this.name = aName == null ? null : aName;
  this[isSourceNode] = true;
  if (aChunks != null) this.add(aChunks);
}

/**
 * Creates a SourceNode from generated code and a SourceMapConsumer.
 *
 * @param aGeneratedCode The generated code
 * @param aSourceMapConsumer The SourceMap for the generated code
 * @param aRelativePath Optional. The path that relative sources in the
 *        SourceMapConsumer should be relative to.
 */
SourceNode.fromStringWithSourceMap =
  function SourceNode_fromStringWithSourceMap(aGeneratedCode, aSourceMapConsumer, aRelativePath) {
    // The SourceNode we want to fill with the generated code
    // and the SourceMap
    var node = new SourceNode();

    // All even indices of this array are one line of the generated code,
    // while all odd indices are the newlines between two adjacent lines
    // (since `REGEX_NEWLINE` captures its match).
    // Processed fragments are accessed by calling `shiftNextLine`.
    var remainingLines = aGeneratedCode.split(REGEX_NEWLINE);
    var remainingLinesIndex = 0;
    var shiftNextLine = function() {
      var lineContents = getNextLine();
      // The last line of a file might not have a newline.
      var newLine = getNextLine() || "";
      return lineContents + newLine;

      function getNextLine() {
        return remainingLinesIndex < remainingLines.length ?
            remainingLines[remainingLinesIndex++] : undefined;
      }
    };

    // We need to remember the position of "remainingLines"
    var lastGeneratedLine = 1, lastGeneratedColumn = 0;

    // The generate SourceNodes we need a code range.
    // To extract it current and last mapping is used.
    // Here we store the last mapping.
    var lastMapping = null;

    aSourceMapConsumer.eachMapping(function (mapping) {
      if (lastMapping !== null) {
        // We add the code from "lastMapping" to "mapping":
        // First check if there is a new line in between.
        if (lastGeneratedLine < mapping.generatedLine) {
          // Associate first line with "lastMapping"
          addMappingWithCode(lastMapping, shiftNextLine());
          lastGeneratedLine++;
          lastGeneratedColumn = 0;
          // The remaining code is added without mapping
        } else {
          // There is no new line in between.
          // Associate the code between "lastGeneratedColumn" and
          // "mapping.generatedColumn" with "lastMapping"
          var nextLine = remainingLines[remainingLinesIndex] || '';
          var code = nextLine.substr(0, mapping.generatedColumn -
                                        lastGeneratedColumn);
          remainingLines[remainingLinesIndex] = nextLine.substr(mapping.generatedColumn -
                                              lastGeneratedColumn);
          lastGeneratedColumn = mapping.generatedColumn;
          addMappingWithCode(lastMapping, code);
          // No more remaining code, continue
          lastMapping = mapping;
          return;
        }
      }
      // We add the generated code until the first mapping
      // to the SourceNode without any mapping.
      // Each line is added as separate string.
      while (lastGeneratedLine < mapping.generatedLine) {
        node.add(shiftNextLine());
        lastGeneratedLine++;
      }
      if (lastGeneratedColumn < mapping.generatedColumn) {
        var nextLine = remainingLines[remainingLinesIndex] || '';
        node.add(nextLine.substr(0, mapping.generatedColumn));
        remainingLines[remainingLinesIndex] = nextLine.substr(mapping.generatedColumn);
        lastGeneratedColumn = mapping.generatedColumn;
      }
      lastMapping = mapping;
    }, this);
    // We have processed all mappings.
    if (remainingLinesIndex < remainingLines.length) {
      if (lastMapping) {
        // Associate the remaining code in the current line with "lastMapping"
        addMappingWithCode(lastMapping, shiftNextLine());
      }
      // and add the remaining lines without any mapping
      node.add(remainingLines.splice(remainingLinesIndex).join(""));
    }

    // Copy sourcesContent into SourceNode
    aSourceMapConsumer.sources.forEach(function (sourceFile) {
      var content = aSourceMapConsumer.sourceContentFor(sourceFile);
      if (content != null) {
        if (aRelativePath != null) {
          sourceFile = util.join(aRelativePath, sourceFile);
        }
        node.setSourceContent(sourceFile, content);
      }
    });

    return node;

    function addMappingWithCode(mapping, code) {
      if (mapping === null || mapping.source === undefined) {
        node.add(code);
      } else {
        var source = aRelativePath
          ? util.join(aRelativePath, mapping.source)
          : mapping.source;
        node.add(new SourceNode(mapping.originalLine,
                                mapping.originalColumn,
                                source,
                                code,
                                mapping.name));
      }
    }
  };

/**
 * Add a chunk of generated JS to this source node.
 *
 * @param aChunk A string snippet of generated JS code, another instance of
 *        SourceNode, or an array where each member is one of those things.
 */
SourceNode.prototype.add = function SourceNode_add(aChunk) {
  if (Array.isArray(aChunk)) {
    aChunk.forEach(function (chunk) {
      this.add(chunk);
    }, this);
  }
  else if (aChunk[isSourceNode] || typeof aChunk === "string") {
    if (aChunk) {
      this.children.push(aChunk);
    }
  }
  else {
    throw new TypeError(
      "Expected a SourceNode, string, or an array of SourceNodes and strings. Got " + aChunk
    );
  }
  return this;
};

/**
 * Add a chunk of generated JS to the beginning of this source node.
 *
 * @param aChunk A string snippet of generated JS code, another instance of
 *        SourceNode, or an array where each member is one of those things.
 */
SourceNode.prototype.prepend = function SourceNode_prepend(aChunk) {
  if (Array.isArray(aChunk)) {
    for (var i = aChunk.length-1; i >= 0; i--) {
      this.prepend(aChunk[i]);
    }
  }
  else if (aChunk[isSourceNode] || typeof aChunk === "string") {
    this.children.unshift(aChunk);
  }
  else {
    throw new TypeError(
      "Expected a SourceNode, string, or an array of SourceNodes and strings. Got " + aChunk
    );
  }
  return this;
};

/**
 * Walk over the tree of JS snippets in this node and its children. The
 * walking function is called once for each snippet of JS and is passed that
 * snippet and the its original associated source's line/column location.
 *
 * @param aFn The traversal function.
 */
SourceNode.prototype.walk = function SourceNode_walk(aFn) {
  var chunk;
  for (var i = 0, len = this.children.length; i < len; i++) {
    chunk = this.children[i];
    if (chunk[isSourceNode]) {
      chunk.walk(aFn);
    }
    else {
      if (chunk !== '') {
        aFn(chunk, { source: this.source,
                     line: this.line,
                     column: this.column,
                     name: this.name });
      }
    }
  }
};

/**
 * Like `String.prototype.join` except for SourceNodes. Inserts `aStr` between
 * each of `this.children`.
 *
 * @param aSep The separator.
 */
SourceNode.prototype.join = function SourceNode_join(aSep) {
  var newChildren;
  var i;
  var len = this.children.length;
  if (len > 0) {
    newChildren = [];
    for (i = 0; i < len-1; i++) {
      newChildren.push(this.children[i]);
      newChildren.push(aSep);
    }
    newChildren.push(this.children[i]);
    this.children = newChildren;
  }
  return this;
};

/**
 * Call String.prototype.replace on the very right-most source snippet. Useful
 * for trimming whitespace from the end of a source node, etc.
 *
 * @param aPattern The pattern to replace.
 * @param aReplacement The thing to replace the pattern with.
 */
SourceNode.prototype.replaceRight = function SourceNode_replaceRight(aPattern, aReplacement) {
  var lastChild = this.children[this.children.length - 1];
  if (lastChild[isSourceNode]) {
    lastChild.replaceRight(aPattern, aReplacement);
  }
  else if (typeof lastChild === 'string') {
    this.children[this.children.length - 1] = lastChild.replace(aPattern, aReplacement);
  }
  else {
    this.children.push(''.replace(aPattern, aReplacement));
  }
  return this;
};

/**
 * Set the source content for a source file. This will be added to the SourceMapGenerator
 * in the sourcesContent field.
 *
 * @param aSourceFile The filename of the source file
 * @param aSourceContent The content of the source file
 */
SourceNode.prototype.setSourceContent =
  function SourceNode_setSourceContent(aSourceFile, aSourceContent) {
    this.sourceContents[util.toSetString(aSourceFile)] = aSourceContent;
  };

/**
 * Walk over the tree of SourceNodes. The walking function is called for each
 * source file content and is passed the filename and source content.
 *
 * @param aFn The traversal function.
 */
SourceNode.prototype.walkSourceContents =
  function SourceNode_walkSourceContents(aFn) {
    for (var i = 0, len = this.children.length; i < len; i++) {
      if (this.children[i][isSourceNode]) {
        this.children[i].walkSourceContents(aFn);
      }
    }

    var sources = Object.keys(this.sourceContents);
    for (var i = 0, len = sources.length; i < len; i++) {
      aFn(util.fromSetString(sources[i]), this.sourceContents[sources[i]]);
    }
  };

/**
 * Return the string representation of this source node. Walks over the tree
 * and concatenates all the various snippets together to one string.
 */
SourceNode.prototype.toString = function SourceNode_toString() {
  var str = "";
  this.walk(function (chunk) {
    str += chunk;
  });
  return str;
};

/**
 * Returns the string representation of this source node along with a source
 * map.
 */
SourceNode.prototype.toStringWithSourceMap = function SourceNode_toStringWithSourceMap(aArgs) {
  var generated = {
    code: "",
    line: 1,
    column: 0
  };
  var map = new SourceMapGenerator$1(aArgs);
  var sourceMappingActive = false;
  var lastOriginalSource = null;
  var lastOriginalLine = null;
  var lastOriginalColumn = null;
  var lastOriginalName = null;
  this.walk(function (chunk, original) {
    generated.code += chunk;
    if (original.source !== null
        && original.line !== null
        && original.column !== null) {
      if(lastOriginalSource !== original.source
         || lastOriginalLine !== original.line
         || lastOriginalColumn !== original.column
         || lastOriginalName !== original.name) {
        map.addMapping({
          source: original.source,
          original: {
            line: original.line,
            column: original.column
          },
          generated: {
            line: generated.line,
            column: generated.column
          },
          name: original.name
        });
      }
      lastOriginalSource = original.source;
      lastOriginalLine = original.line;
      lastOriginalColumn = original.column;
      lastOriginalName = original.name;
      sourceMappingActive = true;
    } else if (sourceMappingActive) {
      map.addMapping({
        generated: {
          line: generated.line,
          column: generated.column
        }
      });
      lastOriginalSource = null;
      sourceMappingActive = false;
    }
    for (var idx = 0, length = chunk.length; idx < length; idx++) {
      if (chunk.charCodeAt(idx) === NEWLINE_CODE) {
        generated.line++;
        generated.column = 0;
        // Mappings end at eol
        if (idx + 1 === length) {
          lastOriginalSource = null;
          sourceMappingActive = false;
        } else if (sourceMappingActive) {
          map.addMapping({
            source: original.source,
            original: {
              line: original.line,
              column: original.column
            },
            generated: {
              line: generated.line,
              column: generated.column
            },
            name: original.name
          });
        }
      } else {
        generated.column++;
      }
    }
  });
  this.walkSourceContents(function (sourceFile, sourceContent) {
    map.setSourceContent(sourceFile, sourceContent);
  });

  return { code: generated.code, map: map };
};

sourceNode.SourceNode = SourceNode;

/*
 * Copyright 2009-2011 Mozilla Foundation and contributors
 * Licensed under the New BSD license. See LICENSE.txt or:
 * http://opensource.org/licenses/BSD-3-Clause
 */

sourceMap$1.SourceMapGenerator = sourceMapGenerator.SourceMapGenerator;
sourceMap$1.SourceMapConsumer = sourceMapConsumer.SourceMapConsumer;
sourceMap$1.SourceNode = sourceNode.SourceNode;

var sourceMap = sourceMap$1;
var SourceMapConsumer = sourceMap.SourceMapConsumer;
var SourceMapGenerator = sourceMap.SourceMapGenerator;

var mergeSourceMap = merge;

/**
 * Merge old source map and new source map and return merged.
 * If old or new source map value is falsy, return another one as it is.
 *
 * @param {object|string} [oldMap] old source map object
 * @param {object|string} [newmap] new source map object
 * @return {object|undefined} merged source map object, or undefined when both old and new source map are undefined
 */
function merge(oldMap, newMap) {
  if (!oldMap) return newMap
  if (!newMap) return oldMap

  var oldMapConsumer = new SourceMapConsumer(oldMap);
  var newMapConsumer = new SourceMapConsumer(newMap);
  var mergedMapGenerator = new SourceMapGenerator();

  // iterate on new map and overwrite original position of new map with one of old map
  newMapConsumer.eachMapping(function(m) {
    // pass when `originalLine` is null.
    // It occurs in case that the node does not have origin in original code.
    if (m.originalLine == null) return

    var origPosInOldMap = oldMapConsumer.originalPositionFor({
      line: m.originalLine,
      column: m.originalColumn
    });

    if (origPosInOldMap.source == null) return

    mergedMapGenerator.addMapping({
      original: {
        line: origPosInOldMap.line,
        column: origPosInOldMap.column
      },
      generated: {
        line: m.generatedLine,
        column: m.generatedColumn
      },
      source: origPosInOldMap.source,
      name: origPosInOldMap.name
    });
  });

  var consumers = [oldMapConsumer, newMapConsumer];
  consumers.forEach(function(consumer) {
    consumer.sources.forEach(function(sourceFile) {
      mergedMapGenerator._sources.add(sourceFile);
      var sourceContent = consumer.sourceContentFor(sourceFile);
      if (sourceContent != null) {
        mergedMapGenerator.setSourceContent(sourceFile, sourceContent);
      }
    });
  });

  mergedMapGenerator._sourceRoot = oldMap.sourceRoot;
  mergedMapGenerator._file = oldMap.file;

  return JSON.parse(mergedMapGenerator.toString())
}

var merge$1 = mergeSourceMap;

var __defProp$5 = Object.defineProperty;
var __defProps$5 = Object.defineProperties;
var __getOwnPropDescs$5 = Object.getOwnPropertyDescriptors;
var __getOwnPropSymbols$5 = Object.getOwnPropertySymbols;
var __hasOwnProp$5 = Object.prototype.hasOwnProperty;
var __propIsEnum$5 = Object.prototype.propertyIsEnumerable;
var __defNormalProp$5 = (obj, key, value) => key in obj ? __defProp$5(obj, key, { enumerable: true, configurable: true, writable: true, value }) : obj[key] = value;
var __spreadValues$5 = (a, b) => {
  for (var prop in b || (b = {}))
    if (__hasOwnProp$5.call(b, prop))
      __defNormalProp$5(a, prop, b[prop]);
  if (__getOwnPropSymbols$5)
    for (var prop of __getOwnPropSymbols$5(b)) {
      if (__propIsEnum$5.call(b, prop))
        __defNormalProp$5(a, prop, b[prop]);
    }
  return a;
};
var __spreadProps$5 = (a, b) => __defProps$5(a, __getOwnPropDescs$5(b));
const scss = (source, map, options, load = require) => {
  const nodeSass = load("sass");
  const finalOptions = __spreadProps$5(__spreadValues$5({}, options), {
    data: getSource(source, options.filename, options.additionalData),
    file: options.filename,
    outFile: options.filename,
    sourceMap: !!map
  });
  try {
    const result = nodeSass.renderSync(finalOptions);
    const dependencies = result.stats.includedFiles;
    if (map) {
      return {
        code: result.css.toString(),
        map: merge$1(map, JSON.parse(result.map.toString())),
        errors: [],
        dependencies
      };
    }
    return { code: result.css.toString(), errors: [], dependencies };
  } catch (e) {
    return { code: "", errors: [e], dependencies: [] };
  }
};
const sass = (source, map, options, load) => scss(
  source,
  map,
  __spreadProps$5(__spreadValues$5({}, options), {
    indentedSyntax: true
  }),
  load
);
const less = (source, map, options, load = require) => {
  const nodeLess = load("less");
  let result;
  let error = null;
  nodeLess.render(
    getSource(source, options.filename, options.additionalData),
    __spreadProps$5(__spreadValues$5({}, options), { syncImport: true }),
    (err, output) => {
      error = err;
      result = output;
    }
  );
  if (error)
    return { code: "", errors: [error], dependencies: [] };
  const dependencies = result.imports;
  if (map) {
    return {
      code: result.css.toString(),
      map: merge$1(map, result.map),
      errors: [],
      dependencies
    };
  }
  return {
    code: result.css.toString(),
    errors: [],
    dependencies
  };
};
const styl = (source, map, options, load = require) => {
  const nodeStylus = load("stylus");
  try {
    const ref = nodeStylus(source);
    Object.keys(options).forEach((key) => ref.set(key, options[key]));
    if (map)
      ref.set("sourcemap", { inline: false, comment: false });
    const result = ref.render();
    const dependencies = ref.deps();
    if (map) {
      return {
        code: result,
        map: merge$1(map, ref.sourcemap),
        errors: [],
        dependencies
      };
    }
    return { code: result, errors: [], dependencies };
  } catch (e) {
    return { code: "", errors: [e], dependencies: [] };
  }
};
function getSource(source, filename, additionalData) {
  if (!additionalData)
    return source;
  if (isFunction$1(additionalData)) {
    return additionalData(source, filename);
  }
  return additionalData + source;
}
const processors = {
  less,
  sass,
  scss,
  styl,
  stylus: styl
};

var __defProp$4 = Object.defineProperty;
var __defProps$4 = Object.defineProperties;
var __getOwnPropDescs$4 = Object.getOwnPropertyDescriptors;
var __getOwnPropSymbols$4 = Object.getOwnPropertySymbols;
var __hasOwnProp$4 = Object.prototype.hasOwnProperty;
var __propIsEnum$4 = Object.prototype.propertyIsEnumerable;
var __defNormalProp$4 = (obj, key, value) => key in obj ? __defProp$4(obj, key, { enumerable: true, configurable: true, writable: true, value }) : obj[key] = value;
var __spreadValues$4 = (a, b) => {
  for (var prop in b || (b = {}))
    if (__hasOwnProp$4.call(b, prop))
      __defNormalProp$4(a, prop, b[prop]);
  if (__getOwnPropSymbols$4)
    for (var prop of __getOwnPropSymbols$4(b)) {
      if (__propIsEnum$4.call(b, prop))
        __defNormalProp$4(a, prop, b[prop]);
    }
  return a;
};
var __spreadProps$4 = (a, b) => __defProps$4(a, __getOwnPropDescs$4(b));
function compileStyle(options) {
  return doCompileStyle(__spreadProps$4(__spreadValues$4({}, options), {
    isAsync: false
  }));
}
function compileStyleAsync(options) {
  return doCompileStyle(__spreadProps$4(__spreadValues$4({}, options), {
    isAsync: true
  }));
}
function doCompileStyle(options) {
  const {
    filename,
    id,
    scoped = false,
    trim = true,
    isProd = false,
    modules = false,
    modulesOptions = {},
    preprocessLang,
    postcssOptions,
    postcssPlugins
  } = options;
  const preprocessor = preprocessLang && processors[preprocessLang];
  const preProcessedSource = preprocessor && preprocess(options, preprocessor);
  const map = preProcessedSource ? preProcessedSource.map : options.inMap || options.map;
  const source = preProcessedSource ? preProcessedSource.code : options.source;
  const shortId = id.replace(/^data-v-/, "");
  const longId = `data-v-${shortId}`;
  const plugins = (postcssPlugins || []).slice();
  plugins.unshift(cssVarsPlugin({ id: shortId, isProd }));
  if (trim) {
    plugins.push(trimPlugin$1());
  }
  if (scoped) {
    plugins.push(scopedPlugin$1(longId));
  }
  let cssModules;
  if (modules) {
    {
      throw new Error(
        "[@vue/compiler-sfc] `modules` option is not supported in the browser build."
      );
    }
  }
  const postCSSOptions = __spreadProps$4(__spreadValues$4({}, postcssOptions), {
    to: filename,
    from: filename
  });
  if (map) {
    postCSSOptions.map = {
      inline: false,
      annotation: false,
      prev: map
    };
  }
  let result;
  let code;
  let outMap;
  const dependencies = new Set(
    preProcessedSource ? preProcessedSource.dependencies : []
  );
  dependencies.delete(filename);
  const errors = [];
  if (preProcessedSource && preProcessedSource.errors.length) {
    errors.push(...preProcessedSource.errors);
  }
  const recordPlainCssDependencies = (messages) => {
    messages.forEach((msg) => {
      if (msg.type === "dependency") {
        dependencies.add(msg.file);
      }
    });
    return dependencies;
  };
  try {
    result = postcss$1(plugins).process(source, postCSSOptions);
    if (options.isAsync) {
      return result.then((result2) => ({
        code: result2.css || "",
        map: result2.map && result2.map.toJSON(),
        errors,
        modules: cssModules,
        rawResult: result2,
        dependencies: recordPlainCssDependencies(result2.messages)
      })).catch((error) => ({
        code: "",
        map: void 0,
        errors: [...errors, error],
        rawResult: void 0,
        dependencies
      }));
    }
    recordPlainCssDependencies(result.messages);
    code = result.css;
    outMap = result.map;
  } catch (e) {
    errors.push(e);
  }
  return {
    code: code || ``,
    map: outMap && outMap.toJSON(),
    errors,
    rawResult: result,
    dependencies
  };
}
function preprocess(options, preprocessor) {
  if (!options.preprocessCustomRequire) {
    throw new Error(
      `[@vue/compiler-sfc] Style preprocessing in the browser build must provide the \`preprocessCustomRequire\` option to return the in-browser version of the preprocessor.`
    );
  }
  return preprocessor(
    options.source,
    options.inMap || options.map,
    __spreadValues$4({
      filename: options.filename
    }, options.preprocessOptions),
    options.preprocessCustomRequire
  );
}

const comma = ','.charCodeAt(0);
const semicolon = ';'.charCodeAt(0);
const chars = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/';
const intToChar = new Uint8Array(64); // 64 possible chars.
const charToInt = new Uint8Array(128); // z is 122 in ASCII
for (let i = 0; i < chars.length; i++) {
    const c = chars.charCodeAt(i);
    intToChar[i] = c;
    charToInt[c] = i;
}
// Provide a fallback for older environments.
const td = typeof TextDecoder !== 'undefined'
    ? /* #__PURE__ */ new TextDecoder()
    : typeof Buffer !== 'undefined'
        ? {
            decode(buf) {
                const out = Buffer.from(buf.buffer, buf.byteOffset, buf.byteLength);
                return out.toString();
            },
        }
        : {
            decode(buf) {
                let out = '';
                for (let i = 0; i < buf.length; i++) {
                    out += String.fromCharCode(buf[i]);
                }
                return out;
            },
        };
function encode(decoded) {
    const state = new Int32Array(5);
    const bufLength = 1024 * 16;
    const subLength = bufLength - 36;
    const buf = new Uint8Array(bufLength);
    const sub = buf.subarray(0, subLength);
    let pos = 0;
    let out = '';
    for (let i = 0; i < decoded.length; i++) {
        const line = decoded[i];
        if (i > 0) {
            if (pos === bufLength) {
                out += td.decode(buf);
                pos = 0;
            }
            buf[pos++] = semicolon;
        }
        if (line.length === 0)
            continue;
        state[0] = 0;
        for (let j = 0; j < line.length; j++) {
            const segment = line[j];
            // We can push up to 5 ints, each int can take at most 7 chars, and we
            // may push a comma.
            if (pos > subLength) {
                out += td.decode(sub);
                buf.copyWithin(0, subLength, pos);
                pos -= subLength;
            }
            if (j > 0)
                buf[pos++] = comma;
            pos = encodeInteger(buf, pos, state, segment, 0); // genColumn
            if (segment.length === 1)
                continue;
            pos = encodeInteger(buf, pos, state, segment, 1); // sourcesIndex
            pos = encodeInteger(buf, pos, state, segment, 2); // sourceLine
            pos = encodeInteger(buf, pos, state, segment, 3); // sourceColumn
            if (segment.length === 4)
                continue;
            pos = encodeInteger(buf, pos, state, segment, 4); // namesIndex
        }
    }
    return out + td.decode(buf.subarray(0, pos));
}
function encodeInteger(buf, pos, state, segment, j) {
    const next = segment[j];
    let num = next - state[j];
    state[j] = next;
    num = num < 0 ? (-num << 1) | 1 : num << 1;
    do {
        let clamped = num & 0b011111;
        num >>>= 5;
        if (num > 0)
            clamped |= 0b100000;
        buf[pos++] = intToChar[clamped];
    } while (num > 0);
    return pos;
}

class BitSet {
	constructor(arg) {
		this.bits = arg instanceof BitSet ? arg.bits.slice() : [];
	}

	add(n) {
		this.bits[n >> 5] |= 1 << (n & 31);
	}

	has(n) {
		return !!(this.bits[n >> 5] & (1 << (n & 31)));
	}
}

class Chunk {
	constructor(start, end, content) {
		this.start = start;
		this.end = end;
		this.original = content;

		this.intro = '';
		this.outro = '';

		this.content = content;
		this.storeName = false;
		this.edited = false;

		{
			this.previous = null;
			this.next = null;
		}
	}

	appendLeft(content) {
		this.outro += content;
	}

	appendRight(content) {
		this.intro = this.intro + content;
	}

	clone() {
		const chunk = new Chunk(this.start, this.end, this.original);

		chunk.intro = this.intro;
		chunk.outro = this.outro;
		chunk.content = this.content;
		chunk.storeName = this.storeName;
		chunk.edited = this.edited;

		return chunk;
	}

	contains(index) {
		return this.start < index && index < this.end;
	}

	eachNext(fn) {
		let chunk = this;
		while (chunk) {
			fn(chunk);
			chunk = chunk.next;
		}
	}

	eachPrevious(fn) {
		let chunk = this;
		while (chunk) {
			fn(chunk);
			chunk = chunk.previous;
		}
	}

	edit(content, storeName, contentOnly) {
		this.content = content;
		if (!contentOnly) {
			this.intro = '';
			this.outro = '';
		}
		this.storeName = storeName;

		this.edited = true;

		return this;
	}

	prependLeft(content) {
		this.outro = content + this.outro;
	}

	prependRight(content) {
		this.intro = content + this.intro;
	}

	split(index) {
		const sliceIndex = index - this.start;

		const originalBefore = this.original.slice(0, sliceIndex);
		const originalAfter = this.original.slice(sliceIndex);

		this.original = originalBefore;

		const newChunk = new Chunk(index, this.end, originalAfter);
		newChunk.outro = this.outro;
		this.outro = '';

		this.end = index;

		if (this.edited) {
			// TODO is this block necessary?...
			newChunk.edit('', false);
			this.content = '';
		} else {
			this.content = originalBefore;
		}

		newChunk.next = this.next;
		if (newChunk.next) newChunk.next.previous = newChunk;
		newChunk.previous = this;
		this.next = newChunk;

		return newChunk;
	}

	toString() {
		return this.intro + this.content + this.outro;
	}

	trimEnd(rx) {
		this.outro = this.outro.replace(rx, '');
		if (this.outro.length) return true;

		const trimmed = this.content.replace(rx, '');

		if (trimmed.length) {
			if (trimmed !== this.content) {
				this.split(this.start + trimmed.length).edit('', undefined, true);
			}
			return true;
		} else {
			this.edit('', undefined, true);

			this.intro = this.intro.replace(rx, '');
			if (this.intro.length) return true;
		}
	}

	trimStart(rx) {
		this.intro = this.intro.replace(rx, '');
		if (this.intro.length) return true;

		const trimmed = this.content.replace(rx, '');

		if (trimmed.length) {
			if (trimmed !== this.content) {
				this.split(this.end - trimmed.length);
				this.edit('', undefined, true);
			}
			return true;
		} else {
			this.edit('', undefined, true);

			this.outro = this.outro.replace(rx, '');
			if (this.outro.length) return true;
		}
	}
}

function getBtoa () {
	if (typeof window !== 'undefined' && typeof window.btoa === 'function') {
		return (str) => window.btoa(unescape(encodeURIComponent(str)));
	} else if (typeof Buffer === 'function') {
		return (str) => Buffer.from(str, 'utf-8').toString('base64');
	} else {
		return () => {
			throw new Error('Unsupported environment: `window.btoa` or `Buffer` should be supported.');
		};
	}
}

const btoa = /*#__PURE__*/ getBtoa();

class SourceMap {
	constructor(properties) {
		this.version = 3;
		this.file = properties.file;
		this.sources = properties.sources;
		this.sourcesContent = properties.sourcesContent;
		this.names = properties.names;
		this.mappings = encode(properties.mappings);
		if (typeof properties.x_google_ignoreList !== 'undefined') {
			this.x_google_ignoreList = properties.x_google_ignoreList;
		}
	}

	toString() {
		return JSON.stringify(this);
	}

	toUrl() {
		return 'data:application/json;charset=utf-8;base64,' + btoa(this.toString());
	}
}

function guessIndent(code) {
	const lines = code.split('\n');

	const tabbed = lines.filter((line) => /^\t+/.test(line));
	const spaced = lines.filter((line) => /^ {2,}/.test(line));

	if (tabbed.length === 0 && spaced.length === 0) {
		return null;
	}

	// More lines tabbed than spaced? Assume tabs, and
	// default to tabs in the case of a tie (or nothing
	// to go on)
	if (tabbed.length >= spaced.length) {
		return '\t';
	}

	// Otherwise, we need to guess the multiple
	const min = spaced.reduce((previous, current) => {
		const numSpaces = /^ +/.exec(current)[0].length;
		return Math.min(numSpaces, previous);
	}, Infinity);

	return new Array(min + 1).join(' ');
}

function getRelativePath(from, to) {
	const fromParts = from.split(/[/\\]/);
	const toParts = to.split(/[/\\]/);

	fromParts.pop(); // get dirname

	while (fromParts[0] === toParts[0]) {
		fromParts.shift();
		toParts.shift();
	}

	if (fromParts.length) {
		let i = fromParts.length;
		while (i--) fromParts[i] = '..';
	}

	return fromParts.concat(toParts).join('/');
}

const toString = Object.prototype.toString;

function isObject(thing) {
	return toString.call(thing) === '[object Object]';
}

function getLocator(source) {
	const originalLines = source.split('\n');
	const lineOffsets = [];

	for (let i = 0, pos = 0; i < originalLines.length; i++) {
		lineOffsets.push(pos);
		pos += originalLines[i].length + 1;
	}

	return function locate(index) {
		let i = 0;
		let j = lineOffsets.length;
		while (i < j) {
			const m = (i + j) >> 1;
			if (index < lineOffsets[m]) {
				j = m;
			} else {
				i = m + 1;
			}
		}
		const line = i - 1;
		const column = index - lineOffsets[line];
		return { line, column };
	};
}

class Mappings {
	constructor(hires) {
		this.hires = hires;
		this.generatedCodeLine = 0;
		this.generatedCodeColumn = 0;
		this.raw = [];
		this.rawSegments = this.raw[this.generatedCodeLine] = [];
		this.pending = null;
	}

	addEdit(sourceIndex, content, loc, nameIndex) {
		if (content.length) {
			const segment = [this.generatedCodeColumn, sourceIndex, loc.line, loc.column];
			if (nameIndex >= 0) {
				segment.push(nameIndex);
			}
			this.rawSegments.push(segment);
		} else if (this.pending) {
			this.rawSegments.push(this.pending);
		}

		this.advance(content);
		this.pending = null;
	}

	addUneditedChunk(sourceIndex, chunk, original, loc, sourcemapLocations) {
		let originalCharIndex = chunk.start;
		let first = true;

		while (originalCharIndex < chunk.end) {
			if (this.hires || first || sourcemapLocations.has(originalCharIndex)) {
				this.rawSegments.push([this.generatedCodeColumn, sourceIndex, loc.line, loc.column]);
			}

			if (original[originalCharIndex] === '\n') {
				loc.line += 1;
				loc.column = 0;
				this.generatedCodeLine += 1;
				this.raw[this.generatedCodeLine] = this.rawSegments = [];
				this.generatedCodeColumn = 0;
				first = true;
			} else {
				loc.column += 1;
				this.generatedCodeColumn += 1;
				first = false;
			}

			originalCharIndex += 1;
		}

		this.pending = null;
	}

	advance(str) {
		if (!str) return;

		const lines = str.split('\n');

		if (lines.length > 1) {
			for (let i = 0; i < lines.length - 1; i++) {
				this.generatedCodeLine++;
				this.raw[this.generatedCodeLine] = this.rawSegments = [];
			}
			this.generatedCodeColumn = 0;
		}

		this.generatedCodeColumn += lines[lines.length - 1].length;
	}
}

const n = '\n';

const warned = {
	insertLeft: false,
	insertRight: false,
	storeName: false,
};

class MagicString {
	constructor(string, options = {}) {
		const chunk = new Chunk(0, string.length, string);

		Object.defineProperties(this, {
			original: { writable: true, value: string },
			outro: { writable: true, value: '' },
			intro: { writable: true, value: '' },
			firstChunk: { writable: true, value: chunk },
			lastChunk: { writable: true, value: chunk },
			lastSearchedChunk: { writable: true, value: chunk },
			byStart: { writable: true, value: {} },
			byEnd: { writable: true, value: {} },
			filename: { writable: true, value: options.filename },
			indentExclusionRanges: { writable: true, value: options.indentExclusionRanges },
			sourcemapLocations: { writable: true, value: new BitSet() },
			storedNames: { writable: true, value: {} },
			indentStr: { writable: true, value: undefined },
			ignoreList: { writable: true, value: options.ignoreList },
		});

		this.byStart[0] = chunk;
		this.byEnd[string.length] = chunk;
	}

	addSourcemapLocation(char) {
		this.sourcemapLocations.add(char);
	}

	append(content) {
		if (typeof content !== 'string') throw new TypeError('outro content must be a string');

		this.outro += content;
		return this;
	}

	appendLeft(index, content) {
		if (typeof content !== 'string') throw new TypeError('inserted content must be a string');

		this._split(index);

		const chunk = this.byEnd[index];

		if (chunk) {
			chunk.appendLeft(content);
		} else {
			this.intro += content;
		}
		return this;
	}

	appendRight(index, content) {
		if (typeof content !== 'string') throw new TypeError('inserted content must be a string');

		this._split(index);

		const chunk = this.byStart[index];

		if (chunk) {
			chunk.appendRight(content);
		} else {
			this.outro += content;
		}
		return this;
	}

	clone() {
		const cloned = new MagicString(this.original, { filename: this.filename });

		let originalChunk = this.firstChunk;
		let clonedChunk = (cloned.firstChunk = cloned.lastSearchedChunk = originalChunk.clone());

		while (originalChunk) {
			cloned.byStart[clonedChunk.start] = clonedChunk;
			cloned.byEnd[clonedChunk.end] = clonedChunk;

			const nextOriginalChunk = originalChunk.next;
			const nextClonedChunk = nextOriginalChunk && nextOriginalChunk.clone();

			if (nextClonedChunk) {
				clonedChunk.next = nextClonedChunk;
				nextClonedChunk.previous = clonedChunk;

				clonedChunk = nextClonedChunk;
			}

			originalChunk = nextOriginalChunk;
		}

		cloned.lastChunk = clonedChunk;

		if (this.indentExclusionRanges) {
			cloned.indentExclusionRanges = this.indentExclusionRanges.slice();
		}

		cloned.sourcemapLocations = new BitSet(this.sourcemapLocations);

		cloned.intro = this.intro;
		cloned.outro = this.outro;

		return cloned;
	}

	generateDecodedMap(options) {
		options = options || {};

		const sourceIndex = 0;
		const names = Object.keys(this.storedNames);
		const mappings = new Mappings(options.hires);

		const locate = getLocator(this.original);

		if (this.intro) {
			mappings.advance(this.intro);
		}

		this.firstChunk.eachNext((chunk) => {
			const loc = locate(chunk.start);

			if (chunk.intro.length) mappings.advance(chunk.intro);

			if (chunk.edited) {
				mappings.addEdit(
					sourceIndex,
					chunk.content,
					loc,
					chunk.storeName ? names.indexOf(chunk.original) : -1
				);
			} else {
				mappings.addUneditedChunk(sourceIndex, chunk, this.original, loc, this.sourcemapLocations);
			}

			if (chunk.outro.length) mappings.advance(chunk.outro);
		});

		return {
			file: options.file ? options.file.split(/[/\\]/).pop() : undefined,
			sources: [options.source ? getRelativePath(options.file || '', options.source) : (options.file || '')],
			sourcesContent: options.includeContent ? [this.original] : undefined,
			names,
			mappings: mappings.raw,
			x_google_ignoreList: this.ignoreList ? [sourceIndex] : undefined
		};
	}

	generateMap(options) {
		return new SourceMap(this.generateDecodedMap(options));
	}

	_ensureindentStr() {
		if (this.indentStr === undefined) {
			this.indentStr = guessIndent(this.original);
		}
	}

	_getRawIndentString() {
		this._ensureindentStr();
		return this.indentStr;
	}

	getIndentString() {
		this._ensureindentStr();
		return this.indentStr === null ? '\t' : this.indentStr;
	}

	indent(indentStr, options) {
		const pattern = /^[^\r\n]/gm;

		if (isObject(indentStr)) {
			options = indentStr;
			indentStr = undefined;
		}

		if (indentStr === undefined) {
			this._ensureindentStr();
			indentStr = this.indentStr || '\t';
		}

		if (indentStr === '') return this; // noop

		options = options || {};

		// Process exclusion ranges
		const isExcluded = {};

		if (options.exclude) {
			const exclusions =
				typeof options.exclude[0] === 'number' ? [options.exclude] : options.exclude;
			exclusions.forEach((exclusion) => {
				for (let i = exclusion[0]; i < exclusion[1]; i += 1) {
					isExcluded[i] = true;
				}
			});
		}

		let shouldIndentNextCharacter = options.indentStart !== false;
		const replacer = (match) => {
			if (shouldIndentNextCharacter) return `${indentStr}${match}`;
			shouldIndentNextCharacter = true;
			return match;
		};

		this.intro = this.intro.replace(pattern, replacer);

		let charIndex = 0;
		let chunk = this.firstChunk;

		while (chunk) {
			const end = chunk.end;

			if (chunk.edited) {
				if (!isExcluded[charIndex]) {
					chunk.content = chunk.content.replace(pattern, replacer);

					if (chunk.content.length) {
						shouldIndentNextCharacter = chunk.content[chunk.content.length - 1] === '\n';
					}
				}
			} else {
				charIndex = chunk.start;

				while (charIndex < end) {
					if (!isExcluded[charIndex]) {
						const char = this.original[charIndex];

						if (char === '\n') {
							shouldIndentNextCharacter = true;
						} else if (char !== '\r' && shouldIndentNextCharacter) {
							shouldIndentNextCharacter = false;

							if (charIndex === chunk.start) {
								chunk.prependRight(indentStr);
							} else {
								this._splitChunk(chunk, charIndex);
								chunk = chunk.next;
								chunk.prependRight(indentStr);
							}
						}
					}

					charIndex += 1;
				}
			}

			charIndex = chunk.end;
			chunk = chunk.next;
		}

		this.outro = this.outro.replace(pattern, replacer);

		return this;
	}

	insert() {
		throw new Error(
			'magicString.insert(...) is deprecated. Use prependRight(...) or appendLeft(...)'
		);
	}

	insertLeft(index, content) {
		if (!warned.insertLeft) {
			console.warn(
				'magicString.insertLeft(...) is deprecated. Use magicString.appendLeft(...) instead'
			); // eslint-disable-line no-console
			warned.insertLeft = true;
		}

		return this.appendLeft(index, content);
	}

	insertRight(index, content) {
		if (!warned.insertRight) {
			console.warn(
				'magicString.insertRight(...) is deprecated. Use magicString.prependRight(...) instead'
			); // eslint-disable-line no-console
			warned.insertRight = true;
		}

		return this.prependRight(index, content);
	}

	move(start, end, index) {
		if (index >= start && index <= end) throw new Error('Cannot move a selection inside itself');

		this._split(start);
		this._split(end);
		this._split(index);

		const first = this.byStart[start];
		const last = this.byEnd[end];

		const oldLeft = first.previous;
		const oldRight = last.next;

		const newRight = this.byStart[index];
		if (!newRight && last === this.lastChunk) return this;
		const newLeft = newRight ? newRight.previous : this.lastChunk;

		if (oldLeft) oldLeft.next = oldRight;
		if (oldRight) oldRight.previous = oldLeft;

		if (newLeft) newLeft.next = first;
		if (newRight) newRight.previous = last;

		if (!first.previous) this.firstChunk = last.next;
		if (!last.next) {
			this.lastChunk = first.previous;
			this.lastChunk.next = null;
		}

		first.previous = newLeft;
		last.next = newRight || null;

		if (!newLeft) this.firstChunk = first;
		if (!newRight) this.lastChunk = last;
		return this;
	}

	overwrite(start, end, content, options) {
		options = options || {};
		return this.update(start, end, content, { ...options, overwrite: !options.contentOnly });
	}

	update(start, end, content, options) {
		if (typeof content !== 'string') throw new TypeError('replacement content must be a string');

		while (start < 0) start += this.original.length;
		while (end < 0) end += this.original.length;

		if (end > this.original.length) throw new Error('end is out of bounds');
		if (start === end)
			throw new Error(
				'Cannot overwrite a zero-length range – use appendLeft or prependRight instead'
			);

		this._split(start);
		this._split(end);

		if (options === true) {
			if (!warned.storeName) {
				console.warn(
					'The final argument to magicString.overwrite(...) should be an options object. See https://github.com/rich-harris/magic-string'
				); // eslint-disable-line no-console
				warned.storeName = true;
			}

			options = { storeName: true };
		}
		const storeName = options !== undefined ? options.storeName : false;
		const overwrite = options !== undefined ? options.overwrite : false;

		if (storeName) {
			const original = this.original.slice(start, end);
			Object.defineProperty(this.storedNames, original, {
				writable: true,
				value: true,
				enumerable: true,
			});
		}

		const first = this.byStart[start];
		const last = this.byEnd[end];

		if (first) {
			let chunk = first;
			while (chunk !== last) {
				if (chunk.next !== this.byStart[chunk.end]) {
					throw new Error('Cannot overwrite across a split point');
				}
				chunk = chunk.next;
				chunk.edit('', false);
			}

			first.edit(content, storeName, !overwrite);
		} else {
			// must be inserting at the end
			const newChunk = new Chunk(start, end, '').edit(content, storeName);

			// TODO last chunk in the array may not be the last chunk, if it's moved...
			last.next = newChunk;
			newChunk.previous = last;
		}
		return this;
	}

	prepend(content) {
		if (typeof content !== 'string') throw new TypeError('outro content must be a string');

		this.intro = content + this.intro;
		return this;
	}

	prependLeft(index, content) {
		if (typeof content !== 'string') throw new TypeError('inserted content must be a string');

		this._split(index);

		const chunk = this.byEnd[index];

		if (chunk) {
			chunk.prependLeft(content);
		} else {
			this.intro = content + this.intro;
		}
		return this;
	}

	prependRight(index, content) {
		if (typeof content !== 'string') throw new TypeError('inserted content must be a string');

		this._split(index);

		const chunk = this.byStart[index];

		if (chunk) {
			chunk.prependRight(content);
		} else {
			this.outro = content + this.outro;
		}
		return this;
	}

	remove(start, end) {
		while (start < 0) start += this.original.length;
		while (end < 0) end += this.original.length;

		if (start === end) return this;

		if (start < 0 || end > this.original.length) throw new Error('Character is out of bounds');
		if (start > end) throw new Error('end must be greater than start');

		this._split(start);
		this._split(end);

		let chunk = this.byStart[start];

		while (chunk) {
			chunk.intro = '';
			chunk.outro = '';
			chunk.edit('');

			chunk = end > chunk.end ? this.byStart[chunk.end] : null;
		}
		return this;
	}

	lastChar() {
		if (this.outro.length) return this.outro[this.outro.length - 1];
		let chunk = this.lastChunk;
		do {
			if (chunk.outro.length) return chunk.outro[chunk.outro.length - 1];
			if (chunk.content.length) return chunk.content[chunk.content.length - 1];
			if (chunk.intro.length) return chunk.intro[chunk.intro.length - 1];
		} while ((chunk = chunk.previous));
		if (this.intro.length) return this.intro[this.intro.length - 1];
		return '';
	}

	lastLine() {
		let lineIndex = this.outro.lastIndexOf(n);
		if (lineIndex !== -1) return this.outro.substr(lineIndex + 1);
		let lineStr = this.outro;
		let chunk = this.lastChunk;
		do {
			if (chunk.outro.length > 0) {
				lineIndex = chunk.outro.lastIndexOf(n);
				if (lineIndex !== -1) return chunk.outro.substr(lineIndex + 1) + lineStr;
				lineStr = chunk.outro + lineStr;
			}

			if (chunk.content.length > 0) {
				lineIndex = chunk.content.lastIndexOf(n);
				if (lineIndex !== -1) return chunk.content.substr(lineIndex + 1) + lineStr;
				lineStr = chunk.content + lineStr;
			}

			if (chunk.intro.length > 0) {
				lineIndex = chunk.intro.lastIndexOf(n);
				if (lineIndex !== -1) return chunk.intro.substr(lineIndex + 1) + lineStr;
				lineStr = chunk.intro + lineStr;
			}
		} while ((chunk = chunk.previous));
		lineIndex = this.intro.lastIndexOf(n);
		if (lineIndex !== -1) return this.intro.substr(lineIndex + 1) + lineStr;
		return this.intro + lineStr;
	}

	slice(start = 0, end = this.original.length) {
		while (start < 0) start += this.original.length;
		while (end < 0) end += this.original.length;

		let result = '';

		// find start chunk
		let chunk = this.firstChunk;
		while (chunk && (chunk.start > start || chunk.end <= start)) {
			// found end chunk before start
			if (chunk.start < end && chunk.end >= end) {
				return result;
			}

			chunk = chunk.next;
		}

		if (chunk && chunk.edited && chunk.start !== start)
			throw new Error(`Cannot use replaced character ${start} as slice start anchor.`);

		const startChunk = chunk;
		while (chunk) {
			if (chunk.intro && (startChunk !== chunk || chunk.start === start)) {
				result += chunk.intro;
			}

			const containsEnd = chunk.start < end && chunk.end >= end;
			if (containsEnd && chunk.edited && chunk.end !== end)
				throw new Error(`Cannot use replaced character ${end} as slice end anchor.`);

			const sliceStart = startChunk === chunk ? start - chunk.start : 0;
			const sliceEnd = containsEnd ? chunk.content.length + end - chunk.end : chunk.content.length;

			result += chunk.content.slice(sliceStart, sliceEnd);

			if (chunk.outro && (!containsEnd || chunk.end === end)) {
				result += chunk.outro;
			}

			if (containsEnd) {
				break;
			}

			chunk = chunk.next;
		}

		return result;
	}

	// TODO deprecate this? not really very useful
	snip(start, end) {
		const clone = this.clone();
		clone.remove(0, start);
		clone.remove(end, clone.original.length);

		return clone;
	}

	_split(index) {
		if (this.byStart[index] || this.byEnd[index]) return;

		let chunk = this.lastSearchedChunk;
		const searchForward = index > chunk.end;

		while (chunk) {
			if (chunk.contains(index)) return this._splitChunk(chunk, index);

			chunk = searchForward ? this.byStart[chunk.end] : this.byEnd[chunk.start];
		}
	}

	_splitChunk(chunk, index) {
		if (chunk.edited && chunk.content.length) {
			// zero-length edited chunks are a special case (overlapping replacements)
			const loc = getLocator(this.original)(index);
			throw new Error(
				`Cannot split a chunk that has already been edited (${loc.line}:${loc.column} – "${chunk.original}")`
			);
		}

		const newChunk = chunk.split(index);

		this.byEnd[index] = chunk;
		this.byStart[index] = newChunk;
		this.byEnd[newChunk.end] = newChunk;

		if (chunk === this.lastChunk) this.lastChunk = newChunk;

		this.lastSearchedChunk = chunk;
		return true;
	}

	toString() {
		let str = this.intro;

		let chunk = this.firstChunk;
		while (chunk) {
			str += chunk.toString();
			chunk = chunk.next;
		}

		return str + this.outro;
	}

	isEmpty() {
		let chunk = this.firstChunk;
		do {
			if (
				(chunk.intro.length && chunk.intro.trim()) ||
				(chunk.content.length && chunk.content.trim()) ||
				(chunk.outro.length && chunk.outro.trim())
			)
				return false;
		} while ((chunk = chunk.next));
		return true;
	}

	length() {
		let chunk = this.firstChunk;
		let length = 0;
		do {
			length += chunk.intro.length + chunk.content.length + chunk.outro.length;
		} while ((chunk = chunk.next));
		return length;
	}

	trimLines() {
		return this.trim('[\\r\\n]');
	}

	trim(charType) {
		return this.trimStart(charType).trimEnd(charType);
	}

	trimEndAborted(charType) {
		const rx = new RegExp((charType || '\\s') + '+$');

		this.outro = this.outro.replace(rx, '');
		if (this.outro.length) return true;

		let chunk = this.lastChunk;

		do {
			const end = chunk.end;
			const aborted = chunk.trimEnd(rx);

			// if chunk was trimmed, we have a new lastChunk
			if (chunk.end !== end) {
				if (this.lastChunk === chunk) {
					this.lastChunk = chunk.next;
				}

				this.byEnd[chunk.end] = chunk;
				this.byStart[chunk.next.start] = chunk.next;
				this.byEnd[chunk.next.end] = chunk.next;
			}

			if (aborted) return true;
			chunk = chunk.previous;
		} while (chunk);

		return false;
	}

	trimEnd(charType) {
		this.trimEndAborted(charType);
		return this;
	}
	trimStartAborted(charType) {
		const rx = new RegExp('^' + (charType || '\\s') + '+');

		this.intro = this.intro.replace(rx, '');
		if (this.intro.length) return true;

		let chunk = this.firstChunk;

		do {
			const end = chunk.end;
			const aborted = chunk.trimStart(rx);

			if (chunk.end !== end) {
				// special case...
				if (chunk === this.lastChunk) this.lastChunk = chunk.next;

				this.byEnd[chunk.end] = chunk;
				this.byStart[chunk.next.start] = chunk.next;
				this.byEnd[chunk.next.end] = chunk.next;
			}

			if (aborted) return true;
			chunk = chunk.next;
		} while (chunk);

		return false;
	}

	trimStart(charType) {
		this.trimStartAborted(charType);
		return this;
	}

	hasChanged() {
		return this.original !== this.toString();
	}

	_replaceRegexp(searchValue, replacement) {
		function getReplacement(match, str) {
			if (typeof replacement === 'string') {
				return replacement.replace(/\$(\$|&|\d+)/g, (_, i) => {
					// https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/String/replace#specifying_a_string_as_a_parameter
					if (i === '$') return '$';
					if (i === '&') return match[0];
					const num = +i;
					if (num < match.length) return match[+i];
					return `$${i}`;
				});
			} else {
				return replacement(...match, match.index, str, match.groups);
			}
		}
		function matchAll(re, str) {
			let match;
			const matches = [];
			while ((match = re.exec(str))) {
				matches.push(match);
			}
			return matches;
		}
		if (searchValue.global) {
			const matches = matchAll(searchValue, this.original);
			matches.forEach((match) => {
				if (match.index != null)
					this.overwrite(
						match.index,
						match.index + match[0].length,
						getReplacement(match, this.original)
					);
			});
		} else {
			const match = this.original.match(searchValue);
			if (match && match.index != null)
				this.overwrite(
					match.index,
					match.index + match[0].length,
					getReplacement(match, this.original)
				);
		}
		return this;
	}

	_replaceString(string, replacement) {
		const { original } = this;
		const index = original.indexOf(string);

		if (index !== -1) {
			this.overwrite(index, index + string.length, replacement);
		}

		return this;
	}

	replace(searchValue, replacement) {
		if (typeof searchValue === 'string') {
			return this._replaceString(searchValue, replacement);
		}

		return this._replaceRegexp(searchValue, replacement);
	}

	_replaceAllString(string, replacement) {
		const { original } = this;
		const stringLength = string.length;
		for (
			let index = original.indexOf(string);
			index !== -1;
			index = original.indexOf(string, index + stringLength)
		) {
			this.overwrite(index, index + stringLength, replacement);
		}

		return this;
	}

	replaceAll(searchValue, replacement) {
		if (typeof searchValue === 'string') {
			return this._replaceAllString(searchValue, replacement);
		}

		if (!searchValue.global) {
			throw new TypeError(
				'MagicString.prototype.replaceAll called with a non-global RegExp argument'
			);
		}

		return this._replaceRegexp(searchValue, replacement);
	}
}

var __defProp$3 = Object.defineProperty;
var __defProps$3 = Object.defineProperties;
var __getOwnPropDescs$3 = Object.getOwnPropertyDescriptors;
var __getOwnPropSymbols$3 = Object.getOwnPropertySymbols;
var __hasOwnProp$3 = Object.prototype.hasOwnProperty;
var __propIsEnum$3 = Object.prototype.propertyIsEnumerable;
var __defNormalProp$3 = (obj, key, value) => key in obj ? __defProp$3(obj, key, { enumerable: true, configurable: true, writable: true, value }) : obj[key] = value;
var __spreadValues$3 = (a, b) => {
  for (var prop in b || (b = {}))
    if (__hasOwnProp$3.call(b, prop))
      __defNormalProp$3(a, prop, b[prop]);
  if (__getOwnPropSymbols$3)
    for (var prop of __getOwnPropSymbols$3(b)) {
      if (__propIsEnum$3.call(b, prop))
        __defNormalProp$3(a, prop, b[prop]);
    }
  return a;
};
var __spreadProps$3 = (a, b) => __defProps$3(a, __getOwnPropDescs$3(b));
const CONVERT_SYMBOL = "$";
const ESCAPE_SYMBOL = "$$";
const IMPORT_SOURCE = "vue/macros";
const shorthands = ["ref", "computed", "shallowRef", "toRef", "customRef"];
const transformCheckRE = /[^\w]\$(?:\$|ref|computed|shallowRef)?\s*(\(|\<)/;
function shouldTransform(src) {
  return transformCheckRE.test(src);
}
function transform(src, {
  filename,
  sourceMap,
  parserPlugins,
  importHelpersFrom = "vue"
} = {}) {
  const plugins = parserPlugins || [];
  if (filename) {
    if (/\.tsx?$/.test(filename)) {
      plugins.push("typescript");
    }
    if (filename.endsWith("x")) {
      plugins.push("jsx");
    }
  }
  const ast = parse_1$1(src, {
    sourceType: "module",
    plugins
  });
  const s = new MagicString(src);
  const res = transformAST(ast.program, s, 0);
  if (res.importedHelpers.length) {
    s.prepend(
      `import { ${res.importedHelpers.map((h) => `${h} as _${h}`).join(", ")} } from '${importHelpersFrom}'
`
    );
  }
  return __spreadProps$3(__spreadValues$3({}, res), {
    code: s.toString(),
    map: sourceMap ? s.generateMap({
      source: filename,
      hires: true,
      includeContent: true
    }) : null
  });
}
function transformAST(ast, s, offset = 0, knownRefs, knownProps) {
  warnExperimental();
  const userImports = /* @__PURE__ */ Object.create(null);
  for (const node of ast.body) {
    if (node.type !== "ImportDeclaration")
      continue;
    walkImportDeclaration(node);
  }
  let convertSymbol;
  let escapeSymbol;
  for (const { local, imported, source, specifier } of Object.values(
    userImports
  )) {
    if (source === IMPORT_SOURCE) {
      if (imported === ESCAPE_SYMBOL) {
        escapeSymbol = local;
      } else if (imported === CONVERT_SYMBOL) {
        convertSymbol = local;
      } else if (imported !== local) {
        error(
          `macro imports for ref-creating methods do not support aliasing.`,
          specifier
        );
      }
    }
  }
  if (!convertSymbol && !userImports[CONVERT_SYMBOL]) {
    convertSymbol = CONVERT_SYMBOL;
  }
  if (!escapeSymbol && !userImports[ESCAPE_SYMBOL]) {
    escapeSymbol = ESCAPE_SYMBOL;
  }
  const importedHelpers = /* @__PURE__ */ new Set();
  const rootScope = {};
  const scopeStack = [rootScope];
  let currentScope = rootScope;
  let escapeScope;
  const excludedIds = /* @__PURE__ */ new WeakSet();
  const parentStack = [];
  const propsLocalToPublicMap = /* @__PURE__ */ Object.create(null);
  if (knownRefs) {
    for (const key of knownRefs) {
      rootScope[key] = {};
    }
  }
  if (knownProps) {
    for (const key in knownProps) {
      const { local, isConst } = knownProps[key];
      rootScope[local] = {
        isProp: true,
        isConst: !!isConst
      };
      propsLocalToPublicMap[local] = key;
    }
  }
  function walkImportDeclaration(node) {
    const source = node.source.value;
    if (source === IMPORT_SOURCE) {
      s.remove(node.start + offset, node.end + offset);
    }
    for (const specifier of node.specifiers) {
      const local = specifier.local.name;
      const imported = specifier.type === "ImportSpecifier" && specifier.imported.type === "Identifier" && specifier.imported.name || "default";
      userImports[local] = {
        source,
        local,
        imported,
        specifier
      };
    }
  }
  function isRefCreationCall(callee) {
    if (!convertSymbol || currentScope[convertSymbol] !== void 0) {
      return false;
    }
    if (callee === convertSymbol) {
      return convertSymbol;
    }
    if (callee[0] === "$" && shorthands.includes(callee.slice(1))) {
      return callee;
    }
    return false;
  }
  function error(msg, node) {
    const e = new Error(msg);
    e.node = node;
    throw e;
  }
  function helper(msg) {
    importedHelpers.add(msg);
    return `_${msg}`;
  }
  function registerBinding(id, binding) {
    excludedIds.add(id);
    if (currentScope) {
      currentScope[id.name] = binding ? binding : false;
    } else {
      error(
        "registerBinding called without active scope, something is wrong.",
        id
      );
    }
  }
  const registerRefBinding = (id, isConst = false) => registerBinding(id, { isConst });
  let tempVarCount = 0;
  function genTempVar() {
    return `__$temp_${++tempVarCount}`;
  }
  function snip(node) {
    return s.original.slice(node.start + offset, node.end + offset);
  }
  function walkScope(node, isRoot = false) {
    for (const stmt of node.body) {
      if (stmt.type === "VariableDeclaration") {
        walkVariableDeclaration(stmt, isRoot);
      } else if (stmt.type === "FunctionDeclaration" || stmt.type === "ClassDeclaration") {
        if (stmt.declare || !stmt.id)
          continue;
        registerBinding(stmt.id);
      } else if ((stmt.type === "ForOfStatement" || stmt.type === "ForInStatement") && stmt.left.type === "VariableDeclaration") {
        walkVariableDeclaration(stmt.left);
      } else if (stmt.type === "ExportNamedDeclaration" && stmt.declaration && stmt.declaration.type === "VariableDeclaration") {
        walkVariableDeclaration(stmt.declaration, isRoot);
      } else if (stmt.type === "LabeledStatement" && stmt.body.type === "VariableDeclaration") {
        walkVariableDeclaration(stmt.body, isRoot);
      }
    }
  }
  function walkVariableDeclaration(stmt, isRoot = false) {
    if (stmt.declare) {
      return;
    }
    for (const decl of stmt.declarations) {
      let refCall;
      const isCall = decl.init && decl.init.type === "CallExpression" && decl.init.callee.type === "Identifier";
      if (isCall && (refCall = isRefCreationCall(decl.init.callee.name))) {
        processRefDeclaration(
          refCall,
          decl.id,
          decl.init,
          stmt.kind === "const"
        );
      } else {
        const isProps = isRoot && isCall && decl.init.callee.name === "defineProps";
        for (const id of extractIdentifiers(decl.id)) {
          if (isProps) {
            excludedIds.add(id);
          } else {
            registerBinding(id);
          }
        }
      }
    }
  }
  function processRefDeclaration(method, id, call, isConst) {
    excludedIds.add(call.callee);
    if (method === convertSymbol) {
      s.remove(call.callee.start + offset, call.callee.end + offset);
      if (id.type === "Identifier") {
        registerRefBinding(id, isConst);
      } else if (id.type === "ObjectPattern") {
        processRefObjectPattern(id, call, isConst);
      } else if (id.type === "ArrayPattern") {
        processRefArrayPattern(id, call, isConst);
      }
    } else {
      if (id.type === "Identifier") {
        registerRefBinding(id, isConst);
        s.overwrite(
          call.start + offset,
          call.start + method.length + offset,
          helper(method.slice(1))
        );
      } else {
        error(`${method}() cannot be used with destructure patterns.`, call);
      }
    }
  }
  function processRefObjectPattern(pattern, call, isConst, tempVar, path = []) {
    if (!tempVar) {
      tempVar = genTempVar();
      s.overwrite(pattern.start + offset, pattern.end + offset, tempVar);
    }
    let nameId;
    for (const p of pattern.properties) {
      let key;
      let defaultValue;
      if (p.type === "ObjectProperty") {
        if (p.key.start === p.value.start) {
          nameId = p.key;
          if (p.value.type === "Identifier") {
            excludedIds.add(p.value);
          } else if (p.value.type === "AssignmentPattern" && p.value.left.type === "Identifier") {
            excludedIds.add(p.value.left);
            defaultValue = p.value.right;
          }
        } else {
          key = p.computed ? p.key : p.key.name;
          if (p.value.type === "Identifier") {
            nameId = p.value;
          } else if (p.value.type === "ObjectPattern") {
            processRefObjectPattern(p.value, call, isConst, tempVar, [
              ...path,
              key
            ]);
          } else if (p.value.type === "ArrayPattern") {
            processRefArrayPattern(p.value, call, isConst, tempVar, [
              ...path,
              key
            ]);
          } else if (p.value.type === "AssignmentPattern") {
            if (p.value.left.type === "Identifier") {
              nameId = p.value.left;
              defaultValue = p.value.right;
            } else if (p.value.left.type === "ObjectPattern") {
              processRefObjectPattern(p.value.left, call, isConst, tempVar, [
                ...path,
                [key, p.value.right]
              ]);
            } else if (p.value.left.type === "ArrayPattern") {
              processRefArrayPattern(p.value.left, call, isConst, tempVar, [
                ...path,
                [key, p.value.right]
              ]);
            } else ;
          }
        }
      } else {
        error(`reactivity destructure does not support rest elements.`, p);
      }
      if (nameId) {
        registerRefBinding(nameId, isConst);
        const source = pathToString(tempVar, path);
        const keyStr = isString$2(key) ? `'${key}'` : key ? snip(key) : `'${nameId.name}'`;
        const defaultStr = defaultValue ? `, ${snip(defaultValue)}` : ``;
        s.appendLeft(
          call.end + offset,
          `,
  ${nameId.name} = ${helper(
            "toRef"
          )}(${source}, ${keyStr}${defaultStr})`
        );
      }
    }
    if (nameId) {
      s.appendLeft(call.end + offset, ";");
    }
  }
  function processRefArrayPattern(pattern, call, isConst, tempVar, path = []) {
    if (!tempVar) {
      tempVar = genTempVar();
      s.overwrite(pattern.start + offset, pattern.end + offset, tempVar);
    }
    let nameId;
    for (let i = 0; i < pattern.elements.length; i++) {
      const e = pattern.elements[i];
      if (!e)
        continue;
      let defaultValue;
      if (e.type === "Identifier") {
        nameId = e;
      } else if (e.type === "AssignmentPattern") {
        nameId = e.left;
        defaultValue = e.right;
      } else if (e.type === "RestElement") {
        error(`reactivity destructure does not support rest elements.`, e);
      } else if (e.type === "ObjectPattern") {
        processRefObjectPattern(e, call, isConst, tempVar, [...path, i]);
      } else if (e.type === "ArrayPattern") {
        processRefArrayPattern(e, call, isConst, tempVar, [...path, i]);
      }
      if (nameId) {
        registerRefBinding(nameId, isConst);
        const source = pathToString(tempVar, path);
        const defaultStr = defaultValue ? `, ${snip(defaultValue)}` : ``;
        s.appendLeft(
          call.end + offset,
          `,
  ${nameId.name} = ${helper(
            "toRef"
          )}(${source}, ${i}${defaultStr})`
        );
      }
    }
    if (nameId) {
      s.appendLeft(call.end + offset, ";");
    }
  }
  function pathToString(source, path) {
    if (path.length) {
      for (const seg of path) {
        if (isArray$3(seg)) {
          source = `(${source}${segToString(seg[0])} || ${snip(seg[1])})`;
        } else {
          source += segToString(seg);
        }
      }
    }
    return source;
  }
  function segToString(seg) {
    if (typeof seg === "number") {
      return `[${seg}]`;
    } else if (typeof seg === "string") {
      return `.${seg}`;
    } else {
      return snip(seg);
    }
  }
  function rewriteId(scope, id, parent, parentStack2) {
    if (hasOwn(scope, id.name)) {
      const binding = scope[id.name];
      if (binding) {
        if (binding.isConst && (parent.type === "AssignmentExpression" && id === parent.left || parent.type === "UpdateExpression")) {
          error(`Assignment to constant variable.`, id);
        }
        const { isProp } = binding;
        if (isStaticProperty(parent) && parent.shorthand) {
          if (!parent.inPattern || isInDestructureAssignment(parent, parentStack2)) {
            if (isProp) {
              if (escapeScope) {
                registerEscapedPropBinding(id);
                s.appendLeft(
                  id.end + offset,
                  `: __props_${propsLocalToPublicMap[id.name]}`
                );
              } else {
                s.appendLeft(
                  id.end + offset,
                  `: ${genPropsAccessExp(propsLocalToPublicMap[id.name])}`
                );
              }
            } else {
              s.appendLeft(id.end + offset, `: ${id.name}.value`);
            }
          }
        } else {
          if (isProp) {
            if (escapeScope) {
              registerEscapedPropBinding(id);
              s.overwrite(
                id.start + offset,
                id.end + offset,
                `__props_${propsLocalToPublicMap[id.name]}`
              );
            } else {
              s.overwrite(
                id.start + offset,
                id.end + offset,
                genPropsAccessExp(propsLocalToPublicMap[id.name])
              );
            }
          } else {
            s.appendLeft(id.end + offset, ".value");
          }
        }
      }
      return true;
    }
    return false;
  }
  const propBindingRefs = {};
  function registerEscapedPropBinding(id) {
    if (!propBindingRefs.hasOwnProperty(id.name)) {
      propBindingRefs[id.name] = true;
      const publicKey = propsLocalToPublicMap[id.name];
      s.prependRight(
        offset,
        `const __props_${publicKey} = ${helper(
          `toRef`
        )}(__props, '${publicKey}');
`
      );
    }
  }
  walkScope(ast, true);
  walk$1(ast, {
    enter(node, parent) {
      parent && parentStack.push(parent);
      if (isFunctionType(node)) {
        scopeStack.push(currentScope = {});
        walkFunctionParams(node, registerBinding);
        if (node.body.type === "BlockStatement") {
          walkScope(node.body);
        }
        return;
      }
      if (node.type === "CatchClause") {
        scopeStack.push(currentScope = {});
        if (node.param && node.param.type === "Identifier") {
          registerBinding(node.param);
        }
        walkScope(node.body);
        return;
      }
      if (node.type === "BlockStatement" && !isFunctionType(parent)) {
        scopeStack.push(currentScope = {});
        walkScope(node);
        return;
      }
      if (parent && parent.type.startsWith("TS") && parent.type !== "TSAsExpression" && parent.type !== "TSNonNullExpression" && parent.type !== "TSTypeAssertion") {
        return this.skip();
      }
      if (node.type === "Identifier") {
        const binding = rootScope[node.name];
        if (
          // if inside $$(), skip unless this is a destructured prop binding
          !(escapeScope && (!binding || !binding.isProp)) && isReferencedIdentifier(node, parent, parentStack) && !excludedIds.has(node)
        ) {
          let i = scopeStack.length;
          while (i--) {
            if (rewriteId(scopeStack[i], node, parent, parentStack)) {
              return;
            }
          }
        }
      }
      if (node.type === "CallExpression" && node.callee.type === "Identifier") {
        const callee = node.callee.name;
        const refCall = isRefCreationCall(callee);
        if (refCall && (!parent || parent.type !== "VariableDeclarator")) {
          return error(
            `${refCall} can only be used as the initializer of a variable declaration.`,
            node
          );
        }
        if (escapeSymbol && currentScope[escapeSymbol] === void 0 && callee === escapeSymbol) {
          escapeScope = node;
          s.remove(node.callee.start + offset, node.callee.end + offset);
          if ((parent == null ? void 0 : parent.type) === "ExpressionStatement") {
            let i = (node.leadingComments ? node.leadingComments[0].start : node.start) + offset;
            while (i--) {
              const char = s.original.charAt(i);
              if (char === "\n") {
                s.prependRight(node.start + offset, ";");
                break;
              } else if (!/\s/.test(char)) {
                break;
              }
            }
          }
        }
      }
    },
    leave(node, parent) {
      parent && parentStack.pop();
      if (node.type === "BlockStatement" && !isFunctionType(parent) || isFunctionType(node)) {
        scopeStack.pop();
        currentScope = scopeStack[scopeStack.length - 1] || null;
      }
      if (node === escapeScope) {
        escapeScope = void 0;
      }
    }
  });
  return {
    rootRefs: Object.keys(rootScope).filter((key) => {
      const binding = rootScope[key];
      return binding && !binding.isProp;
    }),
    importedHelpers: [...importedHelpers]
  };
}
const hasWarned = {};
function warnExperimental() {
  if (typeof window !== "undefined") {
    return;
  }
  warnOnce(
    `Reactivity Transform was an experimental feature and has now been deprecated. It will be removed from Vue core in 3.4. If you intend to continue using it, switch to https://vue-macros.sxzz.moe/features/reactivity-transform.html.
See reason for deprecation here: https://github.com/vuejs/rfcs/discussions/369#discussioncomment-5059028`
  );
}
function warnOnce(msg) {
  const isNodeProd = typeof process !== "undefined" && process.env.NODE_ENV === "production";
  if (!isNodeProd && true && !hasWarned[msg]) {
    hasWarned[msg] = true;
    warn(msg);
  }
}
function warn(msg) {
  console.warn(
    `\x1B[1m\x1B[33m[@vue/reactivity-transform]\x1B[0m\x1B[33m ${msg}\x1B[0m
`
  );
}

function analyzeScriptBindings(ast) {
  for (const node of ast) {
    if (node.type === "ExportDefaultDeclaration" && node.declaration.type === "ObjectExpression") {
      return analyzeBindingsFromOptions(node.declaration);
    }
  }
  return {};
}
function analyzeBindingsFromOptions(node) {
  const bindings = {};
  Object.defineProperty(bindings, "__isScriptSetup", {
    enumerable: false,
    value: false
  });
  for (const property of node.properties) {
    if (property.type === "ObjectProperty" && !property.computed && property.key.type === "Identifier") {
      if (property.key.name === "props") {
        for (const key of getObjectOrArrayExpressionKeys(property.value)) {
          bindings[key] = "props";
        }
      } else if (property.key.name === "inject") {
        for (const key of getObjectOrArrayExpressionKeys(property.value)) {
          bindings[key] = "options";
        }
      } else if (property.value.type === "ObjectExpression" && (property.key.name === "computed" || property.key.name === "methods")) {
        for (const key of getObjectExpressionKeys(property.value)) {
          bindings[key] = "options";
        }
      }
    } else if (property.type === "ObjectMethod" && property.key.type === "Identifier" && (property.key.name === "setup" || property.key.name === "data")) {
      for (const bodyItem of property.body.body) {
        if (bodyItem.type === "ReturnStatement" && bodyItem.argument && bodyItem.argument.type === "ObjectExpression") {
          for (const key of getObjectExpressionKeys(bodyItem.argument)) {
            bindings[key] = property.key.name === "setup" ? "setup-maybe-ref" : "data";
          }
        }
      }
    }
  }
  return bindings;
}
function getObjectExpressionKeys(node) {
  const keys = [];
  for (const prop of node.properties) {
    if (prop.type === "SpreadElement")
      continue;
    const key = resolveObjectKey(prop.key, prop.computed);
    if (key)
      keys.push(String(key));
  }
  return keys;
}
function getArrayExpressionKeys(node) {
  const keys = [];
  for (const element of node.elements) {
    if (element && element.type === "StringLiteral") {
      keys.push(element.value);
    }
  }
  return keys;
}
function getObjectOrArrayExpressionKeys(value) {
  if (value.type === "ArrayExpression") {
    return getArrayExpressionKeys(value);
  }
  if (value.type === "ObjectExpression") {
    return getObjectExpressionKeys(value);
  }
  return [];
}

function rewriteDefault(input, as, parserPlugins) {
  const ast = parse_1$1(input, {
    sourceType: "module",
    plugins: parserPlugins
  }).program.body;
  const s = new MagicString(input);
  rewriteDefaultAST(ast, s, as);
  return s.toString();
}
function rewriteDefaultAST(ast, s, as) {
  if (!hasDefaultExport(ast)) {
    s.append(`
const ${as} = {}`);
    return;
  }
  ast.forEach((node) => {
    if (node.type === "ExportDefaultDeclaration") {
      if (node.declaration.type === "ClassDeclaration") {
        let start = node.declaration.decorators && node.declaration.decorators.length > 0 ? node.declaration.decorators[node.declaration.decorators.length - 1].end : node.start;
        s.overwrite(start, node.declaration.id.start, ` class `);
        s.append(`
const ${as} = ${node.declaration.id.name}`);
      } else {
        s.overwrite(node.start, node.declaration.start, `const ${as} = `);
      }
    } else if (node.type === "ExportNamedDeclaration") {
      for (const specifier of node.specifiers) {
        if (specifier.type === "ExportSpecifier" && specifier.exported.type === "Identifier" && specifier.exported.name === "default") {
          if (node.source) {
            if (specifier.local.name === "default") {
              s.prepend(
                `import { default as __VUE_DEFAULT__ } from '${node.source.value}'
`
              );
              const end2 = specifierEnd(s, specifier.local.end, node.end);
              s.remove(specifier.start, end2);
              s.append(`
const ${as} = __VUE_DEFAULT__`);
              continue;
            } else {
              s.prepend(
                `import { ${s.slice(
                  specifier.local.start,
                  specifier.local.end
                )} as __VUE_DEFAULT__ } from '${node.source.value}'
`
              );
              const end2 = specifierEnd(s, specifier.exported.end, node.end);
              s.remove(specifier.start, end2);
              s.append(`
const ${as} = __VUE_DEFAULT__`);
              continue;
            }
          }
          const end = specifierEnd(s, specifier.end, node.end);
          s.remove(specifier.start, end);
          s.append(`
const ${as} = ${specifier.local.name}`);
        }
      }
    }
  });
}
function hasDefaultExport(ast) {
  for (const stmt of ast) {
    if (stmt.type === "ExportDefaultDeclaration") {
      return true;
    } else if (stmt.type === "ExportNamedDeclaration" && stmt.specifiers.some(
      (spec) => spec.exported.name === "default"
    )) {
      return true;
    }
  }
  return false;
}
function specifierEnd(s, end, nodeEnd) {
  let hasCommas = false;
  let oldEnd = end;
  while (end < nodeEnd) {
    if (/\s/.test(s.slice(end, end + 1))) {
      end++;
    } else if (s.slice(end, end + 1) === ",") {
      end++;
      hasCommas = true;
      break;
    } else if (s.slice(end, end + 1) === "}") {
      break;
    }
  }
  return hasCommas ? end : oldEnd;
}

var __defProp$2 = Object.defineProperty;
var __defProps$2 = Object.defineProperties;
var __getOwnPropDescs$2 = Object.getOwnPropertyDescriptors;
var __getOwnPropSymbols$2 = Object.getOwnPropertySymbols;
var __hasOwnProp$2 = Object.prototype.hasOwnProperty;
var __propIsEnum$2 = Object.prototype.propertyIsEnumerable;
var __defNormalProp$2 = (obj, key, value) => key in obj ? __defProp$2(obj, key, { enumerable: true, configurable: true, writable: true, value }) : obj[key] = value;
var __spreadValues$2 = (a, b) => {
  for (var prop in b || (b = {}))
    if (__hasOwnProp$2.call(b, prop))
      __defNormalProp$2(a, prop, b[prop]);
  if (__getOwnPropSymbols$2)
    for (var prop of __getOwnPropSymbols$2(b)) {
      if (__propIsEnum$2.call(b, prop))
        __defNormalProp$2(a, prop, b[prop]);
    }
  return a;
};
var __spreadProps$2 = (a, b) => __defProps$2(a, __getOwnPropDescs$2(b));
const normalScriptDefaultVar = `__default__`;
function processNormalScript(ctx, scopeId) {
  const script = ctx.descriptor.script;
  if (script.lang && !ctx.isJS && !ctx.isTS) {
    return script;
  }
  try {
    let content = script.content;
    let map = script.map;
    const scriptAst = ctx.scriptAst;
    const bindings = analyzeScriptBindings(scriptAst.body);
    const { source, filename, cssVars } = ctx.descriptor;
    const { sourceMap, genDefaultAs, isProd } = ctx.options;
    if (ctx.options.reactivityTransform && shouldTransform(content)) {
      const s = new MagicString(source);
      const startOffset = script.loc.start.offset;
      const endOffset = script.loc.end.offset;
      const { importedHelpers } = transformAST(scriptAst, s, startOffset);
      if (importedHelpers.length) {
        s.prepend(
          `import { ${importedHelpers.map((h) => `${h} as _${h}`).join(", ")} } from 'vue'
`
        );
      }
      s.remove(0, startOffset);
      s.remove(endOffset, source.length);
      content = s.toString();
      if (sourceMap !== false) {
        map = s.generateMap({
          source: filename,
          hires: true,
          includeContent: true
        });
      }
    }
    if (cssVars.length || genDefaultAs) {
      const defaultVar = genDefaultAs || normalScriptDefaultVar;
      const s = new MagicString(content);
      rewriteDefaultAST(scriptAst.body, s, defaultVar);
      content = s.toString();
      if (cssVars.length) {
        content += genNormalScriptCssVarsCode(
          cssVars,
          bindings,
          scopeId,
          !!isProd,
          defaultVar
        );
      }
      if (!genDefaultAs) {
        content += `
export default ${defaultVar}`;
      }
    }
    return __spreadProps$2(__spreadValues$2({}, script), {
      content,
      map,
      bindings,
      scriptAst: scriptAst.body
    });
  } catch (e) {
    return script;
  }
}

var _a, _b;
class ScriptCompileContext {
  constructor(descriptor, options) {
    this.descriptor = descriptor;
    this.options = options;
    this.source = this.descriptor.source;
    this.filename = this.descriptor.filename;
    this.s = new MagicString(this.source);
    this.startOffset = (_a = this.descriptor.scriptSetup) == null ? void 0 : _a.loc.start.offset;
    this.endOffset = (_b = this.descriptor.scriptSetup) == null ? void 0 : _b.loc.end.offset;
    this.userImports = /* @__PURE__ */ Object.create(null);
    // macros presence check
    this.hasDefinePropsCall = false;
    this.hasDefineEmitCall = false;
    this.hasDefineExposeCall = false;
    this.hasDefaultExportName = false;
    this.hasDefaultExportRender = false;
    this.hasDefineOptionsCall = false;
    this.hasDefineSlotsCall = false;
    this.hasDefineModelCall = false;
    this.propsDestructuredBindings = /* @__PURE__ */ Object.create(null);
    // defineModel
    this.modelDecls = {};
    // codegen
    this.bindingMetadata = {};
    this.helperImports = /* @__PURE__ */ new Set();
    const { script, scriptSetup } = descriptor;
    const scriptLang = script && script.lang;
    const scriptSetupLang = scriptSetup && scriptSetup.lang;
    this.isJS = scriptLang === "js" || scriptLang === "jsx" || scriptSetupLang === "js" || scriptSetupLang === "jsx";
    this.isTS = scriptLang === "ts" || scriptLang === "tsx" || scriptSetupLang === "ts" || scriptSetupLang === "tsx";
    const plugins = resolveParserPlugins(
      scriptLang || scriptSetupLang,
      options.babelParserPlugins
    );
    function parse(input, offset) {
      try {
        return parse_1$1(input, {
          plugins,
          sourceType: "module"
        }).program;
      } catch (e) {
        e.message = `[vue/compiler-sfc] ${e.message}

${descriptor.filename}
${generateCodeFrame(
          descriptor.source,
          e.pos + offset,
          e.pos + offset + 1
        )}`;
        throw e;
      }
    }
    this.scriptAst = descriptor.script && parse(descriptor.script.content, descriptor.script.loc.start.offset);
    this.scriptSetupAst = descriptor.scriptSetup && parse(descriptor.scriptSetup.content, this.startOffset);
  }
  helper(key) {
    this.helperImports.add(key);
    return `_${key}`;
  }
  getString(node, scriptSetup = true) {
    const block = scriptSetup ? this.descriptor.scriptSetup : this.descriptor.script;
    return block.content.slice(node.start, node.end);
  }
  error(msg, node, scope) {
    const offset = scope ? scope.offset : this.startOffset;
    throw new Error(
      `[@vue/compiler-sfc] ${msg}

${(scope || this.descriptor).filename}
${generateCodeFrame(
        (scope || this.descriptor).source,
        node.start + offset,
        node.end + offset
      )}`
    );
  }
}
function resolveParserPlugins(lang, userPlugins, dts = false) {
  const plugins = [];
  if (lang === "jsx" || lang === "tsx") {
    plugins.push("jsx");
  } else if (userPlugins) {
    userPlugins = userPlugins.filter((p) => p !== "jsx");
  }
  if (lang === "ts" || lang === "tsx") {
    plugins.push(["typescript", { dts }]);
    if (!plugins.includes("decorators")) {
      plugins.push("decorators-legacy");
    }
  }
  if (userPlugins) {
    plugins.push(...userPlugins);
  }
  return plugins;
}

var __defProp$1 = Object.defineProperty;
var __defProps$1 = Object.defineProperties;
var __getOwnPropDescs$1 = Object.getOwnPropertyDescriptors;
var __getOwnPropSymbols$1 = Object.getOwnPropertySymbols;
var __hasOwnProp$1 = Object.prototype.hasOwnProperty;
var __propIsEnum$1 = Object.prototype.propertyIsEnumerable;
var __defNormalProp$1 = (obj, key, value) => key in obj ? __defProp$1(obj, key, { enumerable: true, configurable: true, writable: true, value }) : obj[key] = value;
var __spreadValues$1 = (a, b) => {
  for (var prop in b || (b = {}))
    if (__hasOwnProp$1.call(b, prop))
      __defNormalProp$1(a, prop, b[prop]);
  if (__getOwnPropSymbols$1)
    for (var prop of __getOwnPropSymbols$1(b)) {
      if (__propIsEnum$1.call(b, prop))
        __defNormalProp$1(a, prop, b[prop]);
    }
  return a;
};
var __spreadProps$1 = (a, b) => __defProps$1(a, __getOwnPropDescs$1(b));
class TypeScope {
  constructor(filename, source, offset = 0, imports = /* @__PURE__ */ Object.create(null), types = /* @__PURE__ */ Object.create(null), declares = /* @__PURE__ */ Object.create(null)) {
    this.filename = filename;
    this.source = source;
    this.offset = offset;
    this.imports = imports;
    this.types = types;
    this.declares = declares;
    this.resolvedImportSources = /* @__PURE__ */ Object.create(null);
    this.exportedTypes = /* @__PURE__ */ Object.create(null);
    this.exportedDeclares = /* @__PURE__ */ Object.create(null);
  }
}
function resolveTypeElements(ctx, node, scope) {
  if (node._resolvedElements) {
    return node._resolvedElements;
  }
  return node._resolvedElements = innerResolveTypeElements(
    ctx,
    node,
    node._ownerScope || scope || ctxToScope(ctx)
  );
}
function innerResolveTypeElements(ctx, node, scope) {
  var _a, _b;
  switch (node.type) {
    case "TSTypeLiteral":
      return typeElementsToMap(ctx, node.members, scope);
    case "TSInterfaceDeclaration":
      return resolveInterfaceMembers(ctx, node, scope);
    case "TSTypeAliasDeclaration":
    case "TSParenthesizedType":
      return resolveTypeElements(ctx, node.typeAnnotation, scope);
    case "TSFunctionType": {
      return { props: {}, calls: [node] };
    }
    case "TSUnionType":
    case "TSIntersectionType":
      return mergeElements(
        node.types.map((t) => resolveTypeElements(ctx, t, scope)),
        node.type
      );
    case "TSMappedType":
      return resolveMappedType(ctx, node, scope);
    case "TSIndexedAccessType": {
      const types = resolveIndexType(ctx, node, scope);
      return mergeElements(
        types.map((t) => resolveTypeElements(ctx, t, t._ownerScope)),
        "TSUnionType"
      );
    }
    case "TSExpressionWithTypeArguments":
    case "TSTypeReference": {
      const typeName = getReferenceName(node);
      if ((typeName === "ExtractPropTypes" || typeName === "ExtractPublicPropTypes") && node.typeParameters && ((_a = scope.imports[typeName]) == null ? void 0 : _a.source) === "vue") {
        return resolveExtractPropTypes(
          resolveTypeElements(ctx, node.typeParameters.params[0], scope),
          scope
        );
      }
      const resolved = resolveTypeReference(ctx, node, scope);
      if (resolved) {
        return resolveTypeElements(ctx, resolved, resolved._ownerScope);
      } else {
        if (typeof typeName === "string") {
          if (
            // @ts-ignore
            SupportedBuiltinsSet.has(typeName)
          ) {
            return resolveBuiltin(ctx, node, typeName, scope);
          } else if (typeName === "ReturnType" && node.typeParameters) {
            const ret = resolveReturnType(
              ctx,
              node.typeParameters.params[0],
              scope
            );
            if (ret) {
              return resolveTypeElements(ctx, ret, scope);
            }
          }
        }
        return ctx.error(
          `Unresolvable type reference or unsupported built-in utility type`,
          node,
          scope
        );
      }
    }
    case "TSImportType": {
      if (getId(node.argument) === "vue" && ((_b = node.qualifier) == null ? void 0 : _b.type) === "Identifier" && node.qualifier.name === "ExtractPropTypes" && node.typeParameters) {
        return resolveExtractPropTypes(
          resolveTypeElements(ctx, node.typeParameters.params[0], scope),
          scope
        );
      }
      const sourceScope = importSourceToScope(
        ctx,
        node.argument,
        scope,
        node.argument.value
      );
      const resolved = resolveTypeReference(ctx, node, sourceScope);
      if (resolved) {
        return resolveTypeElements(ctx, resolved, resolved._ownerScope);
      }
    }
    case "TSTypeQuery": {
      const resolved = resolveTypeReference(ctx, node, scope);
      if (resolved) {
        return resolveTypeElements(ctx, resolved, resolved._ownerScope);
      }
    }
  }
  return ctx.error(`Unresolvable type: ${node.type}`, node, scope);
}
function typeElementsToMap(ctx, elements, scope = ctxToScope(ctx)) {
  const res = { props: {} };
  for (const e of elements) {
    if (e.type === "TSPropertySignature" || e.type === "TSMethodSignature") {
      e._ownerScope = scope;
      const name = getId(e.key);
      if (name && !e.computed) {
        res.props[name] = e;
      } else if (e.key.type === "TemplateLiteral") {
        for (const key of resolveTemplateKeys(ctx, e.key, scope)) {
          res.props[key] = e;
        }
      } else {
        ctx.error(
          `Unsupported computed key in type referenced by a macro`,
          e.key,
          scope
        );
      }
    } else if (e.type === "TSCallSignatureDeclaration") {
      (res.calls || (res.calls = [])).push(e);
    }
  }
  return res;
}
function mergeElements(maps, type) {
  if (maps.length === 1)
    return maps[0];
  const res = { props: {} };
  const { props: baseProps } = res;
  for (const { props, calls } of maps) {
    for (const key in props) {
      if (!hasOwn(baseProps, key)) {
        baseProps[key] = props[key];
      } else {
        baseProps[key] = createProperty(
          baseProps[key].key,
          {
            type,
            // @ts-ignore
            types: [baseProps[key], props[key]]
          },
          baseProps[key]._ownerScope,
          baseProps[key].optional || props[key].optional
        );
      }
    }
    if (calls) {
      (res.calls || (res.calls = [])).push(...calls);
    }
  }
  return res;
}
function createProperty(key, typeAnnotation, scope, optional) {
  return {
    type: "TSPropertySignature",
    key,
    kind: "get",
    optional,
    typeAnnotation: {
      type: "TSTypeAnnotation",
      typeAnnotation
    },
    _ownerScope: scope
  };
}
function resolveInterfaceMembers(ctx, node, scope) {
  const base = typeElementsToMap(ctx, node.body.body, node._ownerScope);
  if (node.extends) {
    for (const ext of node.extends) {
      if (ext.leadingComments && ext.leadingComments.some((c) => c.value.includes("@vue-ignore"))) {
        continue;
      }
      try {
        const { props } = resolveTypeElements(ctx, ext, scope);
        for (const key in props) {
          if (!hasOwn(base.props, key)) {
            base.props[key] = props[key];
          }
        }
      } catch (e) {
        ctx.error(
          `Failed to resolve extends base type.
If this previously worked in 3.2, you can instruct the compiler to ignore this extend by adding /* @vue-ignore */ before it, for example:

interface Props extends /* @vue-ignore */ Base {}

Note: both in 3.2 or with the ignore, the properties in the base type are treated as fallthrough attrs at runtime.`,
          ext
        );
      }
    }
  }
  return base;
}
function resolveMappedType(ctx, node, scope) {
  const res = { props: {} };
  const keys = resolveStringType(ctx, node.typeParameter.constraint, scope);
  for (const key of keys) {
    res.props[key] = createProperty(
      {
        type: "Identifier",
        name: key
      },
      node.typeAnnotation,
      scope,
      !!node.optional
    );
  }
  return res;
}
function resolveIndexType(ctx, node, scope) {
  var _a, _b;
  if (node.indexType.type === "TSNumberKeyword") {
    return resolveArrayElementType(ctx, node.objectType, scope);
  }
  const { indexType, objectType } = node;
  const types = [];
  let keys;
  let resolved;
  if (indexType.type === "TSStringKeyword") {
    resolved = resolveTypeElements(ctx, objectType, scope);
    keys = Object.keys(resolved.props);
  } else {
    keys = resolveStringType(ctx, indexType, scope);
    resolved = resolveTypeElements(ctx, objectType, scope);
  }
  for (const key of keys) {
    const targetType = (_b = (_a = resolved.props[key]) == null ? void 0 : _a.typeAnnotation) == null ? void 0 : _b.typeAnnotation;
    if (targetType) {
      targetType._ownerScope = resolved.props[key]._ownerScope;
      types.push(targetType);
    }
  }
  return types;
}
function resolveArrayElementType(ctx, node, scope) {
  if (node.type === "TSArrayType") {
    return [node.elementType];
  }
  if (node.type === "TSTupleType") {
    return node.elementTypes.map(
      (t) => t.type === "TSNamedTupleMember" ? t.elementType : t
    );
  }
  if (node.type === "TSTypeReference") {
    if (getReferenceName(node) === "Array" && node.typeParameters) {
      return node.typeParameters.params;
    } else {
      const resolved = resolveTypeReference(ctx, node, scope);
      if (resolved) {
        return resolveArrayElementType(ctx, resolved, scope);
      }
    }
  }
  return ctx.error(
    "Failed to resolve element type from target type",
    node,
    scope
  );
}
function resolveStringType(ctx, node, scope) {
  switch (node.type) {
    case "StringLiteral":
      return [node.value];
    case "TSLiteralType":
      return resolveStringType(ctx, node.literal, scope);
    case "TSUnionType":
      return node.types.map((t) => resolveStringType(ctx, t, scope)).flat();
    case "TemplateLiteral": {
      return resolveTemplateKeys(ctx, node, scope);
    }
    case "TSTypeReference": {
      const resolved = resolveTypeReference(ctx, node, scope);
      if (resolved) {
        return resolveStringType(ctx, resolved, scope);
      }
      if (node.typeName.type === "Identifier") {
        const getParam = (index = 0) => resolveStringType(ctx, node.typeParameters.params[index], scope);
        switch (node.typeName.name) {
          case "Extract":
            return getParam(1);
          case "Exclude": {
            const excluded = getParam(1);
            return getParam().filter((s) => !excluded.includes(s));
          }
          case "Uppercase":
            return getParam().map((s) => s.toUpperCase());
          case "Lowercase":
            return getParam().map((s) => s.toLowerCase());
          case "Capitalize":
            return getParam().map(capitalize$1);
          case "Uncapitalize":
            return getParam().map((s) => s[0].toLowerCase() + s.slice(1));
          default:
            ctx.error(
              "Unsupported type when resolving index type",
              node.typeName,
              scope
            );
        }
      }
    }
  }
  return ctx.error("Failed to resolve index type into finite keys", node, scope);
}
function resolveTemplateKeys(ctx, node, scope) {
  if (!node.expressions.length) {
    return [node.quasis[0].value.raw];
  }
  const res = [];
  const e = node.expressions[0];
  const q = node.quasis[0];
  const leading = q ? q.value.raw : ``;
  const resolved = resolveStringType(ctx, e, scope);
  const restResolved = resolveTemplateKeys(
    ctx,
    __spreadProps$1(__spreadValues$1({}, node), {
      expressions: node.expressions.slice(1),
      quasis: q ? node.quasis.slice(1) : node.quasis
    }),
    scope
  );
  for (const r of resolved) {
    for (const rr of restResolved) {
      res.push(leading + r + rr);
    }
  }
  return res;
}
const SupportedBuiltinsSet = /* @__PURE__ */ new Set([
  "Partial",
  "Required",
  "Readonly",
  "Pick",
  "Omit"
]);
function resolveBuiltin(ctx, node, name, scope) {
  const t = resolveTypeElements(ctx, node.typeParameters.params[0], scope);
  switch (name) {
    case "Partial": {
      const res2 = { props: {}, calls: t.calls };
      Object.keys(t.props).forEach((key) => {
        res2.props[key] = __spreadProps$1(__spreadValues$1({}, t.props[key]), { optional: true });
      });
      return res2;
    }
    case "Required": {
      const res2 = { props: {}, calls: t.calls };
      Object.keys(t.props).forEach((key) => {
        res2.props[key] = __spreadProps$1(__spreadValues$1({}, t.props[key]), { optional: false });
      });
      return res2;
    }
    case "Readonly":
      return t;
    case "Pick": {
      const picked = resolveStringType(
        ctx,
        node.typeParameters.params[1],
        scope
      );
      const res2 = { props: {}, calls: t.calls };
      for (const key of picked) {
        res2.props[key] = t.props[key];
      }
      return res2;
    }
    case "Omit":
      const omitted = resolveStringType(
        ctx,
        node.typeParameters.params[1],
        scope
      );
      const res = { props: {}, calls: t.calls };
      for (const key in t.props) {
        if (!omitted.includes(key)) {
          res.props[key] = t.props[key];
        }
      }
      return res;
  }
}
function resolveTypeReference(ctx, node, scope, name, onlyExported = false) {
  if (node._resolvedReference) {
    return node._resolvedReference;
  }
  return node._resolvedReference = innerResolveTypeReference(
    ctx,
    scope || ctxToScope(ctx),
    name || getReferenceName(node),
    node,
    onlyExported
  );
}
function innerResolveTypeReference(ctx, scope, name, node, onlyExported) {
  if (typeof name === "string") {
    if (scope.imports[name]) {
      return resolveTypeFromImport(ctx, node, name, scope);
    } else {
      const lookupSource = node.type === "TSTypeQuery" ? onlyExported ? scope.exportedDeclares : scope.declares : onlyExported ? scope.exportedTypes : scope.types;
      if (lookupSource[name]) {
        return lookupSource[name];
      } else {
        const globalScopes = resolveGlobalScope(ctx);
        if (globalScopes) {
          for (const s of globalScopes) {
            const src = node.type === "TSTypeQuery" ? s.declares : s.types;
            if (src[name]) {
              (ctx.deps || (ctx.deps = /* @__PURE__ */ new Set())).add(s.filename);
              return src[name];
            }
          }
        }
      }
    }
  } else {
    let ns = innerResolveTypeReference(ctx, scope, name[0], node, onlyExported);
    if (ns) {
      if (ns.type !== "TSModuleDeclaration") {
        ns = ns._ns;
      }
      if (ns) {
        const childScope = moduleDeclToScope(ctx, ns, ns._ownerScope || scope);
        return innerResolveTypeReference(
          ctx,
          childScope,
          name.length > 2 ? name.slice(1) : name[name.length - 1],
          node,
          !ns.declare
        );
      }
    }
  }
}
function getReferenceName(node) {
  const ref = node.type === "TSTypeReference" ? node.typeName : node.type === "TSExpressionWithTypeArguments" ? node.expression : node.type === "TSImportType" ? node.qualifier : node.exprName;
  if ((ref == null ? void 0 : ref.type) === "Identifier") {
    return ref.name;
  } else if ((ref == null ? void 0 : ref.type) === "TSQualifiedName") {
    return qualifiedNameToPath(ref);
  } else {
    return "default";
  }
}
function qualifiedNameToPath(node) {
  if (node.type === "Identifier") {
    return [node.name];
  } else {
    return [...qualifiedNameToPath(node.left), node.right.name];
  }
}
function resolveGlobalScope(ctx) {
  if (ctx.options.globalTypeFiles) {
    const fs = resolveFS(ctx);
    if (!fs) {
      throw new Error("[vue/compiler-sfc] globalTypeFiles requires fs access.");
    }
    return ctx.options.globalTypeFiles.map(
      (file) => fileToScope(ctx, normalizePath(file), true)
    );
  }
}
let ts;
function registerTS(_ts) {
  ts = _ts;
}
function resolveFS(ctx) {
  if (ctx.fs) {
    return ctx.fs;
  }
  const fs = ctx.options.fs || ts.sys;
  if (!fs) {
    return;
  }
  return ctx.fs = {
    fileExists(file) {
      if (file.endsWith(".vue.ts")) {
        file = file.replace(/\.ts$/, "");
      }
      return fs.fileExists(file);
    },
    readFile(file) {
      if (file.endsWith(".vue.ts")) {
        file = file.replace(/\.ts$/, "");
      }
      return fs.readFile(file);
    }
  };
}
function resolveTypeFromImport(ctx, node, name, scope) {
  const { source, imported } = scope.imports[name];
  const sourceScope = importSourceToScope(ctx, node, scope, source);
  return resolveTypeReference(ctx, node, sourceScope, imported, true);
}
function importSourceToScope(ctx, node, scope, source) {
  const fs = resolveFS(ctx);
  if (!fs) {
    return ctx.error(
      `No fs option provided to \`compileScript\` in non-Node environment. File system access is required for resolving imported types.`,
      node,
      scope
    );
  }
  let resolved = scope.resolvedImportSources[source];
  if (!resolved) {
    if (source.startsWith(".")) {
      const filename = joinPaths(scope.filename, "..", source);
      resolved = resolveExt(filename, fs);
    } else {
      {
        ctx.error(
          `Type import from non-relative sources is not supported in the browser build.`,
          node,
          scope
        );
      }
      if (!ts) {
        ctx.error(
          `Failed to resolve import source ${JSON.stringify(source)}. typescript is required as a peer dep for vue in order to support resolving types from module imports.`,
          node,
          scope
        );
      }
      resolved = resolveWithTS(scope.filename);
    }
    if (resolved) {
      resolved = scope.resolvedImportSources[source] = normalizePath(resolved);
    }
  }
  if (resolved) {
    (ctx.deps || (ctx.deps = /* @__PURE__ */ new Set())).add(resolved);
    return fileToScope(ctx, resolved);
  } else {
    return ctx.error(
      `Failed to resolve import source ${JSON.stringify(source)}.`,
      node,
      scope
    );
  }
}
function resolveExt(filename, fs) {
  filename = filename.replace(/\.js$/, "");
  const tryResolve = (filename2) => {
    if (fs.fileExists(filename2))
      return filename2;
  };
  return tryResolve(filename) || tryResolve(filename + `.ts`) || tryResolve(filename + `.d.ts`) || tryResolve(joinPaths(filename, `index.ts`)) || tryResolve(joinPaths(filename, `index.d.ts`));
}
const tsConfigCache = createCache();
const tsConfigRefMap = /* @__PURE__ */ new Map();
function resolveWithTS(containingFile, source, fs) {
  return;
}
const fileToScopeCache = createCache();
function invalidateTypeCache(filename) {
  filename = normalizePath(filename);
  fileToScopeCache.delete(filename);
  tsConfigCache.delete(filename);
  const affectedConfig = tsConfigRefMap.get(filename);
  if (affectedConfig)
    tsConfigCache.delete(affectedConfig);
}
function fileToScope(ctx, filename, asGlobal = false) {
  const cached = fileToScopeCache.get(filename);
  if (cached) {
    return cached;
  }
  const fs = resolveFS(ctx);
  const source = fs.readFile(filename) || "";
  const body = parseFile(filename, source, ctx.options.babelParserPlugins);
  const scope = new TypeScope(filename, source, 0, recordImports(body));
  recordTypes(ctx, body, scope, asGlobal);
  fileToScopeCache.set(filename, scope);
  return scope;
}
function parseFile(filename, content, parserPlugins) {
  const ext = extname(filename);
  if (ext === ".ts" || ext === ".tsx") {
    return parse_1$1(content, {
      plugins: resolveParserPlugins(
        ext.slice(1),
        parserPlugins,
        filename.endsWith(".d.ts")
      ),
      sourceType: "module"
    }).program.body;
  } else if (ext === ".vue") {
    const {
      descriptor: { script, scriptSetup }
    } = parse$7(content);
    if (!script && !scriptSetup) {
      return [];
    }
    const scriptOffset = script ? script.loc.start.offset : Infinity;
    const scriptSetupOffset = scriptSetup ? scriptSetup.loc.start.offset : Infinity;
    const firstBlock = scriptOffset < scriptSetupOffset ? script : scriptSetup;
    const secondBlock = scriptOffset < scriptSetupOffset ? scriptSetup : script;
    let scriptContent = " ".repeat(Math.min(scriptOffset, scriptSetupOffset)) + firstBlock.content;
    if (secondBlock) {
      scriptContent += " ".repeat(secondBlock.loc.start.offset - script.loc.end.offset) + secondBlock.content;
    }
    const lang = (script == null ? void 0 : script.lang) || (scriptSetup == null ? void 0 : scriptSetup.lang);
    return parse_1$1(scriptContent, {
      plugins: resolveParserPlugins(lang, parserPlugins),
      sourceType: "module"
    }).program.body;
  }
  return [];
}
function ctxToScope(ctx) {
  if (ctx.scope) {
    return ctx.scope;
  }
  const body = "ast" in ctx ? ctx.ast : ctx.scriptAst ? [...ctx.scriptAst.body, ...ctx.scriptSetupAst.body] : ctx.scriptSetupAst.body;
  const scope = new TypeScope(
    ctx.filename,
    ctx.source,
    "startOffset" in ctx ? ctx.startOffset : 0,
    "userImports" in ctx ? Object.create(ctx.userImports) : recordImports(body)
  );
  recordTypes(ctx, body, scope);
  return ctx.scope = scope;
}
function moduleDeclToScope(ctx, node, parentScope) {
  if (node._resolvedChildScope) {
    return node._resolvedChildScope;
  }
  const scope = new TypeScope(
    parentScope.filename,
    parentScope.source,
    parentScope.offset,
    Object.create(parentScope.imports),
    Object.create(parentScope.types),
    Object.create(parentScope.declares)
  );
  if (node.body.type === "TSModuleDeclaration") {
    const decl = node.body;
    decl._ownerScope = scope;
    const id = getId(decl.id);
    scope.types[id] = scope.exportedTypes[id] = decl;
  } else {
    recordTypes(ctx, node.body.body, scope);
  }
  return node._resolvedChildScope = scope;
}
const importExportRE = /^Import|^Export/;
function recordTypes(ctx, body, scope, asGlobal = false) {
  const { types, declares, exportedTypes, exportedDeclares, imports } = scope;
  const isAmbient = asGlobal ? !body.some((s) => importExportRE.test(s.type)) : false;
  for (const stmt of body) {
    if (asGlobal) {
      if (isAmbient) {
        if (stmt.declare) {
          recordType(stmt, types, declares);
        }
      } else if (stmt.type === "TSModuleDeclaration" && stmt.global) {
        for (const s of stmt.body.body) {
          recordType(s, types, declares);
        }
      }
    } else {
      recordType(stmt, types, declares);
    }
  }
  if (!asGlobal) {
    for (const stmt of body) {
      if (stmt.type === "ExportNamedDeclaration") {
        if (stmt.declaration) {
          recordType(stmt.declaration, types, declares);
          recordType(stmt.declaration, exportedTypes, exportedDeclares);
        } else {
          for (const spec of stmt.specifiers) {
            if (spec.type === "ExportSpecifier") {
              const local = spec.local.name;
              const exported = getId(spec.exported);
              if (stmt.source) {
                imports[local] = {
                  source: stmt.source.value,
                  imported: local
                };
                exportedTypes[exported] = {
                  type: "TSTypeReference",
                  typeName: {
                    type: "Identifier",
                    name: local
                  },
                  _ownerScope: scope
                };
              } else if (types[local]) {
                exportedTypes[exported] = types[local];
              }
            }
          }
        }
      } else if (stmt.type === "ExportAllDeclaration") {
        const sourceScope = importSourceToScope(
          ctx,
          stmt.source,
          scope,
          stmt.source.value
        );
        Object.assign(scope.exportedTypes, sourceScope.exportedTypes);
      } else if (stmt.type === "ExportDefaultDeclaration" && stmt.declaration) {
        if (stmt.declaration.type !== "Identifier") {
          recordType(stmt.declaration, types, declares, "default");
          recordType(
            stmt.declaration,
            exportedTypes,
            exportedDeclares,
            "default"
          );
        } else if (types[stmt.declaration.name]) {
          exportedTypes["default"] = types[stmt.declaration.name];
        }
      }
    }
  }
  for (const key of Object.keys(types)) {
    const node = types[key];
    node._ownerScope = scope;
    if (node._ns)
      node._ns._ownerScope = scope;
  }
  for (const key of Object.keys(declares)) {
    declares[key]._ownerScope = scope;
  }
}
function recordType(node, types, declares, overwriteId) {
  switch (node.type) {
    case "TSInterfaceDeclaration":
    case "TSEnumDeclaration":
    case "TSModuleDeclaration": {
      const id = overwriteId || getId(node.id);
      let existing = types[id];
      if (existing) {
        if (node.type === "TSModuleDeclaration") {
          if (existing.type === "TSModuleDeclaration") {
            mergeNamespaces(existing, node);
          } else {
            attachNamespace(existing, node);
          }
          break;
        }
        if (existing.type === "TSModuleDeclaration") {
          types[id] = node;
          attachNamespace(node, existing);
          break;
        }
        if (existing.type !== node.type) {
          break;
        }
        if (node.type === "TSInterfaceDeclaration") {
          existing.body.body.push(...node.body.body);
        } else {
          existing.members.push(...node.members);
        }
      } else {
        types[id] = node;
      }
      break;
    }
    case "ClassDeclaration":
      types[overwriteId || getId(node.id)] = node;
      break;
    case "TSTypeAliasDeclaration":
      types[node.id.name] = node.typeAnnotation;
      break;
    case "TSDeclareFunction":
      if (node.id)
        declares[node.id.name] = node;
      break;
    case "VariableDeclaration": {
      if (node.declare) {
        for (const decl of node.declarations) {
          if (decl.id.type === "Identifier" && decl.id.typeAnnotation) {
            declares[decl.id.name] = decl.id.typeAnnotation.typeAnnotation;
          }
        }
      }
      break;
    }
  }
}
function mergeNamespaces(to, from) {
  const toBody = to.body;
  const fromBody = from.body;
  if (toBody.type === "TSModuleDeclaration") {
    if (fromBody.type === "TSModuleDeclaration") {
      mergeNamespaces(toBody, fromBody);
    } else {
      fromBody.body.push({
        type: "ExportNamedDeclaration",
        declaration: toBody,
        exportKind: "type",
        specifiers: []
      });
    }
  } else if (fromBody.type === "TSModuleDeclaration") {
    toBody.body.push({
      type: "ExportNamedDeclaration",
      declaration: fromBody,
      exportKind: "type",
      specifiers: []
    });
  } else {
    toBody.body.push(...fromBody.body);
  }
}
function attachNamespace(to, ns) {
  if (!to._ns) {
    to._ns = ns;
  } else {
    mergeNamespaces(to._ns, ns);
  }
}
function recordImports(body) {
  const imports = /* @__PURE__ */ Object.create(null);
  for (const s of body) {
    recordImport(s, imports);
  }
  return imports;
}
function recordImport(node, imports) {
  if (node.type !== "ImportDeclaration") {
    return;
  }
  for (const s of node.specifiers) {
    imports[s.local.name] = {
      imported: getImportedName(s),
      source: node.source.value
    };
  }
}
function inferRuntimeType(ctx, node, scope = node._ownerScope || ctxToScope(ctx)) {
  try {
    switch (node.type) {
      case "TSStringKeyword":
        return ["String"];
      case "TSNumberKeyword":
        return ["Number"];
      case "TSBooleanKeyword":
        return ["Boolean"];
      case "TSObjectKeyword":
        return ["Object"];
      case "TSNullKeyword":
        return ["null"];
      case "TSTypeLiteral":
      case "TSInterfaceDeclaration": {
        const types = /* @__PURE__ */ new Set();
        const members = node.type === "TSTypeLiteral" ? node.members : node.body.body;
        for (const m of members) {
          if (m.type === "TSCallSignatureDeclaration" || m.type === "TSConstructSignatureDeclaration") {
            types.add("Function");
          } else {
            types.add("Object");
          }
        }
        return types.size ? Array.from(types) : ["Object"];
      }
      case "TSPropertySignature":
        if (node.typeAnnotation) {
          return inferRuntimeType(
            ctx,
            node.typeAnnotation.typeAnnotation,
            scope
          );
        }
      case "TSMethodSignature":
      case "TSFunctionType":
        return ["Function"];
      case "TSArrayType":
      case "TSTupleType":
        return ["Array"];
      case "TSLiteralType":
        switch (node.literal.type) {
          case "StringLiteral":
            return ["String"];
          case "BooleanLiteral":
            return ["Boolean"];
          case "NumericLiteral":
          case "BigIntLiteral":
            return ["Number"];
          default:
            return [UNKNOWN_TYPE];
        }
      case "TSTypeReference": {
        const resolved = resolveTypeReference(ctx, node, scope);
        if (resolved) {
          return inferRuntimeType(ctx, resolved, resolved._ownerScope);
        }
        if (node.typeName.type === "Identifier") {
          switch (node.typeName.name) {
            case "Array":
            case "Function":
            case "Object":
            case "Set":
            case "Map":
            case "WeakSet":
            case "WeakMap":
            case "Date":
            case "Promise":
              return [node.typeName.name];
            case "Partial":
            case "Required":
            case "Readonly":
            case "Record":
            case "Pick":
            case "Omit":
            case "InstanceType":
              return ["Object"];
            case "Uppercase":
            case "Lowercase":
            case "Capitalize":
            case "Uncapitalize":
              return ["String"];
            case "Parameters":
            case "ConstructorParameters":
              return ["Array"];
            case "NonNullable":
              if (node.typeParameters && node.typeParameters.params[0]) {
                return inferRuntimeType(
                  ctx,
                  node.typeParameters.params[0],
                  scope
                ).filter((t) => t !== "null");
              }
              break;
            case "Extract":
              if (node.typeParameters && node.typeParameters.params[1]) {
                return inferRuntimeType(
                  ctx,
                  node.typeParameters.params[1],
                  scope
                );
              }
              break;
            case "Exclude":
            case "OmitThisParameter":
              if (node.typeParameters && node.typeParameters.params[0]) {
                return inferRuntimeType(
                  ctx,
                  node.typeParameters.params[0],
                  scope
                );
              }
              break;
          }
        }
        break;
      }
      case "TSParenthesizedType":
        return inferRuntimeType(ctx, node.typeAnnotation, scope);
      case "TSUnionType":
        return flattenTypes(ctx, node.types, scope);
      case "TSIntersectionType": {
        return flattenTypes(ctx, node.types, scope).filter(
          (t) => t !== UNKNOWN_TYPE
        );
      }
      case "TSEnumDeclaration":
        return inferEnumType(node);
      case "TSSymbolKeyword":
        return ["Symbol"];
      case "TSIndexedAccessType": {
        const types = resolveIndexType(ctx, node, scope);
        return flattenTypes(ctx, types, scope);
      }
      case "ClassDeclaration":
        return ["Object"];
      case "TSImportType": {
        const sourceScope = importSourceToScope(
          ctx,
          node.argument,
          scope,
          node.argument.value
        );
        const resolved = resolveTypeReference(ctx, node, sourceScope);
        if (resolved) {
          return inferRuntimeType(ctx, resolved, resolved._ownerScope);
        }
        break;
      }
      case "TSTypeQuery": {
        const id = node.exprName;
        if (id.type === "Identifier") {
          const matched = scope.declares[id.name];
          if (matched) {
            return inferRuntimeType(ctx, matched, matched._ownerScope);
          }
        }
        break;
      }
    }
  } catch (e) {
  }
  return [UNKNOWN_TYPE];
}
function flattenTypes(ctx, types, scope) {
  if (types.length === 1) {
    return inferRuntimeType(ctx, types[0], scope);
  }
  return [
    ...new Set(
      [].concat(
        ...types.map((t) => inferRuntimeType(ctx, t, scope))
      )
    )
  ];
}
function inferEnumType(node) {
  const types = /* @__PURE__ */ new Set();
  for (const m of node.members) {
    if (m.initializer) {
      switch (m.initializer.type) {
        case "StringLiteral":
          types.add("String");
          break;
        case "NumericLiteral":
          types.add("Number");
          break;
      }
    }
  }
  return types.size ? [...types] : ["Number"];
}
function resolveExtractPropTypes({ props }, scope) {
  const res = { props: {} };
  for (const key in props) {
    const raw = props[key];
    res.props[key] = reverseInferType(
      raw.key,
      raw.typeAnnotation.typeAnnotation,
      scope
    );
  }
  return res;
}
function reverseInferType(key, node, scope, optional = true, checkObjectSyntax = true) {
  if (checkObjectSyntax && node.type === "TSTypeLiteral") {
    const typeType = findStaticPropertyType(node, "type");
    if (typeType) {
      const requiredType = findStaticPropertyType(node, "required");
      const optional2 = requiredType && requiredType.type === "TSLiteralType" && requiredType.literal.type === "BooleanLiteral" ? !requiredType.literal.value : true;
      return reverseInferType(key, typeType, scope, optional2, false);
    }
  } else if (node.type === "TSTypeReference" && node.typeName.type === "Identifier") {
    if (node.typeName.name.endsWith("Constructor")) {
      return createProperty(
        key,
        ctorToType(node.typeName.name),
        scope,
        optional
      );
    } else if (node.typeName.name === "PropType" && node.typeParameters) {
      return createProperty(key, node.typeParameters.params[0], scope, optional);
    }
  }
  if ((node.type === "TSTypeReference" || node.type === "TSImportType") && node.typeParameters) {
    for (const t of node.typeParameters.params) {
      const inferred = reverseInferType(key, t, scope, optional);
      if (inferred)
        return inferred;
    }
  }
  return createProperty(key, { type: `TSNullKeyword` }, scope, optional);
}
function ctorToType(ctorType) {
  const ctor = ctorType.slice(0, -11);
  switch (ctor) {
    case "String":
    case "Number":
    case "Boolean":
      return { type: `TS${ctor}Keyword` };
    case "Array":
    case "Function":
    case "Object":
    case "Set":
    case "Map":
    case "WeakSet":
    case "WeakMap":
    case "Date":
    case "Promise":
      return {
        type: "TSTypeReference",
        typeName: { type: "Identifier", name: ctor }
      };
  }
  return { type: `TSNullKeyword` };
}
function findStaticPropertyType(node, key) {
  const prop = node.members.find(
    (m) => m.type === "TSPropertySignature" && !m.computed && getId(m.key) === key && m.typeAnnotation
  );
  return prop && prop.typeAnnotation.typeAnnotation;
}
function resolveReturnType(ctx, arg, scope) {
  var _a;
  let resolved = arg;
  if (arg.type === "TSTypeReference" || arg.type === "TSTypeQuery" || arg.type === "TSImportType") {
    resolved = resolveTypeReference(ctx, arg, scope);
  }
  if (!resolved)
    return;
  if (resolved.type === "TSFunctionType") {
    return (_a = resolved.typeAnnotation) == null ? void 0 : _a.typeAnnotation;
  }
  if (resolved.type === "TSDeclareFunction") {
    return resolved.returnType;
  }
}
function resolveUnionType(ctx, node, scope) {
  if (node.type === "TSTypeReference") {
    const resolved = resolveTypeReference(ctx, node, scope);
    if (resolved)
      node = resolved;
  }
  let types;
  if (node.type === "TSUnionType") {
    types = node.types.flatMap((node2) => resolveUnionType(ctx, node2, scope));
  } else {
    types = [node];
  }
  return types;
}

const DEFINE_MODEL = "defineModel";
function processDefineModel(ctx, node, declId) {
  if (!ctx.options.defineModel || !isCallOf(node, DEFINE_MODEL)) {
    return false;
  }
  warnOnce$4(
    `This project is using defineModel(), which is an experimental  feature. It may receive breaking changes or be removed in the future, so use at your own risk.
To stay updated, follow the RFC at https://github.com/vuejs/rfcs/discussions/503.`
  );
  ctx.hasDefineModelCall = true;
  const type = node.typeParameters && node.typeParameters.params[0] || void 0;
  let modelName;
  let options;
  const arg0 = node.arguments[0] && unwrapTSNode(node.arguments[0]);
  if (arg0 && arg0.type === "StringLiteral") {
    modelName = arg0.value;
    options = node.arguments[1];
  } else {
    modelName = "modelValue";
    options = arg0;
  }
  if (ctx.modelDecls[modelName]) {
    ctx.error(`duplicate model name ${JSON.stringify(modelName)}`, node);
  }
  const optionsString = options && ctx.getString(options);
  ctx.modelDecls[modelName] = {
    type,
    options: optionsString,
    identifier: declId && declId.type === "Identifier" ? declId.name : void 0
  };
  ctx.bindingMetadata[modelName] = "props";
  let runtimeOptions = "";
  if (options) {
    if (options.type === "ObjectExpression") {
      const local = options.properties.find(
        (p) => p.type === "ObjectProperty" && (p.key.type === "Identifier" && p.key.name === "local" || p.key.type === "StringLiteral" && p.key.value === "local")
      );
      if (local) {
        runtimeOptions = `{ ${ctx.getString(local)} }`;
      } else {
        for (const p of options.properties) {
          if (p.type === "SpreadElement" || p.computed) {
            runtimeOptions = optionsString;
            break;
          }
        }
      }
    } else {
      runtimeOptions = optionsString;
    }
  }
  ctx.s.overwrite(
    ctx.startOffset + node.start,
    ctx.startOffset + node.end,
    `${ctx.helper("useModel")}(__props, ${JSON.stringify(modelName)}${runtimeOptions ? `, ${runtimeOptions}` : ``})`
  );
  return true;
}
function genModelProps(ctx) {
  if (!ctx.hasDefineModelCall)
    return;
  const isProd = !!ctx.options.isProd;
  let modelPropsDecl = "";
  for (const [name, { type, options }] of Object.entries(ctx.modelDecls)) {
    let skipCheck = false;
    let runtimeTypes = type && inferRuntimeType(ctx, type);
    if (runtimeTypes) {
      const hasUnknownType = runtimeTypes.includes(UNKNOWN_TYPE);
      runtimeTypes = runtimeTypes.filter((el) => {
        if (el === UNKNOWN_TYPE)
          return false;
        return isProd ? el === "Boolean" || el === "Function" && options : true;
      });
      skipCheck = !isProd && hasUnknownType && runtimeTypes.length > 0;
    }
    let runtimeType = runtimeTypes && runtimeTypes.length > 0 && toRuntimeTypeString(runtimeTypes) || void 0;
    const codegenOptions = concatStrings([
      runtimeType && `type: ${runtimeType}`,
      skipCheck && "skipCheck: true"
    ]);
    let decl;
    if (runtimeType && options) {
      decl = ctx.isTS ? `{ ${codegenOptions}, ...${options} }` : `Object.assign({ ${codegenOptions} }, ${options})`;
    } else {
      decl = options || (runtimeType ? `{ ${codegenOptions} }` : "{}");
    }
    modelPropsDecl += `
    ${JSON.stringify(name)}: ${decl},`;
  }
  return `{${modelPropsDecl}
  }`;
}

const DEFINE_PROPS = "defineProps";
const WITH_DEFAULTS = "withDefaults";
function processDefineProps(ctx, node, declId) {
  if (!isCallOf(node, DEFINE_PROPS)) {
    return processWithDefaults(ctx, node, declId);
  }
  if (ctx.hasDefinePropsCall) {
    ctx.error(`duplicate ${DEFINE_PROPS}() call`, node);
  }
  ctx.hasDefinePropsCall = true;
  ctx.propsRuntimeDecl = node.arguments[0];
  if (ctx.propsRuntimeDecl) {
    for (const key of getObjectOrArrayExpressionKeys(ctx.propsRuntimeDecl)) {
      if (!(key in ctx.bindingMetadata)) {
        ctx.bindingMetadata[key] = "props";
      }
    }
  }
  if (node.typeParameters) {
    if (ctx.propsRuntimeDecl) {
      ctx.error(
        `${DEFINE_PROPS}() cannot accept both type and non-type arguments at the same time. Use one or the other.`,
        node
      );
    }
    ctx.propsTypeDecl = node.typeParameters.params[0];
  }
  if (declId) {
    if (declId.type === "ObjectPattern") {
      processPropsDestructure(ctx, declId);
    } else {
      ctx.propsIdentifier = ctx.getString(declId);
    }
  }
  return true;
}
function processWithDefaults(ctx, node, declId) {
  if (!isCallOf(node, WITH_DEFAULTS)) {
    return false;
  }
  if (processDefineProps(ctx, node.arguments[0], declId)) {
    if (ctx.propsRuntimeDecl) {
      ctx.error(
        `${WITH_DEFAULTS} can only be used with type-based ${DEFINE_PROPS} declaration.`,
        node
      );
    }
    if (ctx.propsDestructureDecl) {
      ctx.error(
        `${WITH_DEFAULTS}() is unnecessary when using destructure with ${DEFINE_PROPS}().
Prefer using destructure default values, e.g. const { foo = 1 } = defineProps(...).`,
        node.callee
      );
    }
    ctx.propsRuntimeDefaults = node.arguments[1];
    if (!ctx.propsRuntimeDefaults) {
      ctx.error(`The 2nd argument of ${WITH_DEFAULTS} is required.`, node);
    }
  } else {
    ctx.error(
      `${WITH_DEFAULTS}' first argument must be a ${DEFINE_PROPS} call.`,
      node.arguments[0] || node
    );
  }
  return true;
}
function genRuntimeProps(ctx) {
  let propsDecls;
  if (ctx.propsRuntimeDecl) {
    propsDecls = ctx.getString(ctx.propsRuntimeDecl).trim();
    if (ctx.propsDestructureDecl) {
      const defaults = [];
      for (const key in ctx.propsDestructuredBindings) {
        const d = genDestructuredDefaultValue(ctx, key);
        const finalKey = getEscapedKey(key);
        if (d)
          defaults.push(
            `${finalKey}: ${d.valueString}${d.needSkipFactory ? `, __skip_${finalKey}: true` : ``}`
          );
      }
      if (defaults.length) {
        propsDecls = `${ctx.helper(
          `mergeDefaults`
        )}(${propsDecls}, {
  ${defaults.join(",\n  ")}
})`;
      }
    }
  } else if (ctx.propsTypeDecl) {
    propsDecls = genRuntimePropsFromTypes(ctx);
  }
  const modelsDecls = genModelProps(ctx);
  if (propsDecls && modelsDecls) {
    return `${ctx.helper("mergeModels")}(${propsDecls}, ${modelsDecls})`;
  } else {
    return modelsDecls || propsDecls;
  }
}
function genRuntimePropsFromTypes(ctx) {
  const props = resolveRuntimePropsFromType(ctx, ctx.propsTypeDecl);
  if (!props.length) {
    return;
  }
  const propStrings = [];
  const hasStaticDefaults = hasStaticWithDefaults(ctx);
  for (const prop of props) {
    propStrings.push(genRuntimePropFromType(ctx, prop, hasStaticDefaults));
    if (!(prop.key in ctx.bindingMetadata)) {
      ctx.bindingMetadata[prop.key] = "props";
    }
  }
  let propsDecls = `{
    ${propStrings.join(",\n    ")}
  }`;
  if (ctx.propsRuntimeDefaults && !hasStaticDefaults) {
    propsDecls = `${ctx.helper("mergeDefaults")}(${propsDecls}, ${ctx.getString(
      ctx.propsRuntimeDefaults
    )})`;
  }
  return propsDecls;
}
function resolveRuntimePropsFromType(ctx, node) {
  const props = [];
  const elements = resolveTypeElements(ctx, node);
  for (const key in elements.props) {
    const e = elements.props[key];
    let type = inferRuntimeType(ctx, e);
    let skipCheck = false;
    if (type.includes(UNKNOWN_TYPE)) {
      if (type.includes("Boolean") || type.includes("Function")) {
        type = type.filter((t) => t !== UNKNOWN_TYPE);
        skipCheck = true;
      } else {
        type = ["null"];
      }
    }
    props.push({
      key,
      required: !e.optional,
      type: type || [`null`],
      skipCheck
    });
  }
  return props;
}
function genRuntimePropFromType(ctx, { key, required, type, skipCheck }, hasStaticDefaults) {
  let defaultString;
  const destructured = genDestructuredDefaultValue(ctx, key, type);
  if (destructured) {
    defaultString = `default: ${destructured.valueString}${destructured.needSkipFactory ? `, skipFactory: true` : ``}`;
  } else if (hasStaticDefaults) {
    const prop = ctx.propsRuntimeDefaults.properties.find(
      (node) => {
        if (node.type === "SpreadElement")
          return false;
        return resolveObjectKey(node.key, node.computed) === key;
      }
    );
    if (prop) {
      if (prop.type === "ObjectProperty") {
        defaultString = `default: ${ctx.getString(prop.value)}`;
      } else {
        defaultString = `${prop.async ? "async " : ""}${prop.kind !== "method" ? `${prop.kind} ` : ""}default() ${ctx.getString(prop.body)}`;
      }
    }
  }
  const finalKey = getEscapedKey(key);
  if (!ctx.options.isProd) {
    return `${finalKey}: { ${concatStrings([
      `type: ${toRuntimeTypeString(type)}`,
      `required: ${required}`,
      skipCheck && "skipCheck: true",
      defaultString
    ])} }`;
  } else if (type.some(
    (el) => el === "Boolean" || (!hasStaticDefaults || defaultString) && el === "Function"
  )) {
    return `${finalKey}: { ${concatStrings([
      `type: ${toRuntimeTypeString(type)}`,
      defaultString
    ])} }`;
  } else {
    return `${finalKey}: ${defaultString ? `{ ${defaultString} }` : `{}`}`;
  }
}
function hasStaticWithDefaults(ctx) {
  return !!(ctx.propsRuntimeDefaults && ctx.propsRuntimeDefaults.type === "ObjectExpression" && ctx.propsRuntimeDefaults.properties.every(
    (node) => node.type !== "SpreadElement" && (!node.computed || node.key.type.endsWith("Literal"))
  ));
}
function genDestructuredDefaultValue(ctx, key, inferredType) {
  const destructured = ctx.propsDestructuredBindings[key];
  const defaultVal = destructured && destructured.default;
  if (defaultVal) {
    const value = ctx.getString(defaultVal);
    const unwrapped = unwrapTSNode(defaultVal);
    if (inferredType && inferredType.length && !inferredType.includes("null")) {
      const valueType = inferValueType(unwrapped);
      if (valueType && !inferredType.includes(valueType)) {
        ctx.error(
          `Default value of prop "${key}" does not match declared type.`,
          unwrapped
        );
      }
    }
    const needSkipFactory = !inferredType && (isFunctionType(unwrapped) || unwrapped.type === "Identifier");
    const needFactoryWrap = !needSkipFactory && !isLiteralNode(unwrapped) && !(inferredType == null ? void 0 : inferredType.includes("Function"));
    return {
      valueString: needFactoryWrap ? `() => (${value})` : value,
      needSkipFactory
    };
  }
}
function inferValueType(node) {
  switch (node.type) {
    case "StringLiteral":
      return "String";
    case "NumericLiteral":
      return "Number";
    case "BooleanLiteral":
      return "Boolean";
    case "ObjectExpression":
      return "Object";
    case "ArrayExpression":
      return "Array";
    case "FunctionExpression":
    case "ArrowFunctionExpression":
      return "Function";
  }
}

function processPropsDestructure(ctx, declId) {
  if (!ctx.options.propsDestructure && !ctx.options.reactivityTransform) {
    ctx.propsIdentifier = ctx.getString(declId);
    return;
  }
  warnOnce$4(
    `This project is using reactive props destructure, which is an experimental  feature. It may receive breaking changes or be removed in the future, so use at your own risk.
To stay updated, follow the RFC at https://github.com/vuejs/rfcs/discussions/502.`
  );
  ctx.propsDestructureDecl = declId;
  const registerBinding = (key, local, defaultValue) => {
    ctx.propsDestructuredBindings[key] = { local, default: defaultValue };
    if (local !== key) {
      ctx.bindingMetadata[local] = "props-aliased";
      (ctx.bindingMetadata.__propsAliases || (ctx.bindingMetadata.__propsAliases = {}))[local] = key;
    }
  };
  for (const prop of declId.properties) {
    if (prop.type === "ObjectProperty") {
      const propKey = resolveObjectKey(prop.key, prop.computed);
      if (!propKey) {
        ctx.error(
          `${DEFINE_PROPS}() destructure cannot use computed key.`,
          prop.key
        );
      }
      if (prop.value.type === "AssignmentPattern") {
        const { left, right } = prop.value;
        if (left.type !== "Identifier") {
          ctx.error(
            `${DEFINE_PROPS}() destructure does not support nested patterns.`,
            left
          );
        }
        registerBinding(propKey, left.name, right);
      } else if (prop.value.type === "Identifier") {
        registerBinding(propKey, prop.value.name);
      } else {
        ctx.error(
          `${DEFINE_PROPS}() destructure does not support nested patterns.`,
          prop.value
        );
      }
    } else {
      ctx.propsDestructureRestId = prop.argument.name;
      ctx.bindingMetadata[ctx.propsDestructureRestId] = "setup-reactive-const";
    }
  }
}
function transformDestructuredProps(ctx, vueImportAliases) {
  if (!ctx.options.propsDestructure && !ctx.options.reactivityTransform) {
    return;
  }
  const rootScope = {};
  const scopeStack = [rootScope];
  let currentScope = rootScope;
  const excludedIds = /* @__PURE__ */ new WeakSet();
  const parentStack = [];
  const propsLocalToPublicMap = /* @__PURE__ */ Object.create(null);
  for (const key in ctx.propsDestructuredBindings) {
    const { local } = ctx.propsDestructuredBindings[key];
    rootScope[local] = true;
    propsLocalToPublicMap[local] = key;
  }
  function pushScope() {
    scopeStack.push(currentScope = Object.create(currentScope));
  }
  function popScope() {
    scopeStack.pop();
    currentScope = scopeStack[scopeStack.length - 1] || null;
  }
  function registerLocalBinding(id) {
    excludedIds.add(id);
    if (currentScope) {
      currentScope[id.name] = false;
    } else {
      ctx.error(
        "registerBinding called without active scope, something is wrong.",
        id
      );
    }
  }
  function walkScope(node, isRoot = false) {
    for (const stmt of node.body) {
      if (stmt.type === "VariableDeclaration") {
        walkVariableDeclaration(stmt, isRoot);
      } else if (stmt.type === "FunctionDeclaration" || stmt.type === "ClassDeclaration") {
        if (stmt.declare || !stmt.id)
          continue;
        registerLocalBinding(stmt.id);
      } else if ((stmt.type === "ForOfStatement" || stmt.type === "ForInStatement") && stmt.left.type === "VariableDeclaration") {
        walkVariableDeclaration(stmt.left);
      } else if (stmt.type === "ExportNamedDeclaration" && stmt.declaration && stmt.declaration.type === "VariableDeclaration") {
        walkVariableDeclaration(stmt.declaration, isRoot);
      } else if (stmt.type === "LabeledStatement" && stmt.body.type === "VariableDeclaration") {
        walkVariableDeclaration(stmt.body, isRoot);
      }
    }
  }
  function walkVariableDeclaration(stmt, isRoot = false) {
    if (stmt.declare) {
      return;
    }
    for (const decl of stmt.declarations) {
      const isDefineProps = isRoot && decl.init && isCallOf(unwrapTSNode(decl.init), "defineProps");
      for (const id of extractIdentifiers(decl.id)) {
        if (isDefineProps) {
          excludedIds.add(id);
        } else {
          registerLocalBinding(id);
        }
      }
    }
  }
  function rewriteId(id, parent, parentStack2) {
    if (parent.type === "AssignmentExpression" && id === parent.left || parent.type === "UpdateExpression") {
      ctx.error(`Cannot assign to destructured props as they are readonly.`, id);
    }
    if (isStaticProperty(parent) && parent.shorthand) {
      if (!parent.inPattern || isInDestructureAssignment(parent, parentStack2)) {
        ctx.s.appendLeft(
          id.end + ctx.startOffset,
          `: ${genPropsAccessExp(propsLocalToPublicMap[id.name])}`
        );
      }
    } else {
      ctx.s.overwrite(
        id.start + ctx.startOffset,
        id.end + ctx.startOffset,
        genPropsAccessExp(propsLocalToPublicMap[id.name])
      );
    }
  }
  function checkUsage(node, method, alias = method) {
    if (isCallOf(node, alias)) {
      const arg = unwrapTSNode(node.arguments[0]);
      if (arg.type === "Identifier" && currentScope[arg.name]) {
        ctx.error(
          `"${arg.name}" is a destructured prop and should not be passed directly to ${method}(). Pass a getter () => ${arg.name} instead.`,
          arg
        );
      }
    }
  }
  const ast = ctx.scriptSetupAst;
  walkScope(ast, true);
  walk$1(ast, {
    enter(node, parent) {
      parent && parentStack.push(parent);
      if (parent && parent.type.startsWith("TS") && parent.type !== "TSAsExpression" && parent.type !== "TSNonNullExpression" && parent.type !== "TSTypeAssertion") {
        return this.skip();
      }
      checkUsage(node, "watch", vueImportAliases.watch);
      checkUsage(node, "toRef", vueImportAliases.toRef);
      if (isFunctionType(node)) {
        pushScope();
        walkFunctionParams(node, registerLocalBinding);
        if (node.body.type === "BlockStatement") {
          walkScope(node.body);
        }
        return;
      }
      if (node.type === "CatchClause") {
        pushScope();
        if (node.param && node.param.type === "Identifier") {
          registerLocalBinding(node.param);
        }
        walkScope(node.body);
        return;
      }
      if (node.type === "BlockStatement" && !isFunctionType(parent)) {
        pushScope();
        walkScope(node);
        return;
      }
      if (node.type === "Identifier") {
        if (isReferencedIdentifier(node, parent, parentStack) && !excludedIds.has(node)) {
          if (currentScope[node.name]) {
            rewriteId(node, parent, parentStack);
          }
        }
      }
    },
    leave(node, parent) {
      parent && parentStack.pop();
      if (node.type === "BlockStatement" && !isFunctionType(parent) || isFunctionType(node)) {
        popScope();
      }
    }
  });
}

const DEFINE_EMITS = "defineEmits";
function processDefineEmits(ctx, node, declId) {
  if (!isCallOf(node, DEFINE_EMITS)) {
    return false;
  }
  if (ctx.hasDefineEmitCall) {
    ctx.error(`duplicate ${DEFINE_EMITS}() call`, node);
  }
  ctx.hasDefineEmitCall = true;
  ctx.emitsRuntimeDecl = node.arguments[0];
  if (node.typeParameters) {
    if (ctx.emitsRuntimeDecl) {
      ctx.error(
        `${DEFINE_EMITS}() cannot accept both type and non-type arguments at the same time. Use one or the other.`,
        node
      );
    }
    ctx.emitsTypeDecl = node.typeParameters.params[0];
  }
  if (declId) {
    ctx.emitIdentifier = declId.type === "Identifier" ? declId.name : ctx.getString(declId);
  }
  return true;
}
function genRuntimeEmits(ctx) {
  let emitsDecl = "";
  if (ctx.emitsRuntimeDecl) {
    emitsDecl = ctx.getString(ctx.emitsRuntimeDecl).trim();
  } else if (ctx.emitsTypeDecl) {
    const typeDeclaredEmits = extractRuntimeEmits(ctx);
    emitsDecl = typeDeclaredEmits.size ? `[${Array.from(typeDeclaredEmits).map((k) => JSON.stringify(k)).join(", ")}]` : ``;
  }
  if (ctx.hasDefineModelCall) {
    let modelEmitsDecl = `[${Object.keys(ctx.modelDecls).map((n) => JSON.stringify(`update:${n}`)).join(", ")}]`;
    emitsDecl = emitsDecl ? `${ctx.helper("mergeModels")}(${emitsDecl}, ${modelEmitsDecl})` : modelEmitsDecl;
  }
  return emitsDecl;
}
function extractRuntimeEmits(ctx) {
  const emits = /* @__PURE__ */ new Set();
  const node = ctx.emitsTypeDecl;
  if (node.type === "TSFunctionType") {
    extractEventNames(ctx, node.parameters[0], emits);
    return emits;
  }
  const { props, calls } = resolveTypeElements(ctx, node);
  let hasProperty = false;
  for (const key in props) {
    emits.add(key);
    hasProperty = true;
  }
  if (calls) {
    if (hasProperty) {
      ctx.error(
        `defineEmits() type cannot mixed call signature and property syntax.`,
        node
      );
    }
    for (const call of calls) {
      extractEventNames(ctx, call.parameters[0], emits);
    }
  }
  return emits;
}
function extractEventNames(ctx, eventName, emits) {
  if (eventName.type === "Identifier" && eventName.typeAnnotation && eventName.typeAnnotation.type === "TSTypeAnnotation") {
    const types = resolveUnionType(ctx, eventName.typeAnnotation.typeAnnotation);
    for (const type of types) {
      if (type.type === "TSLiteralType") {
        if (type.literal.type !== "UnaryExpression" && type.literal.type !== "TemplateLiteral") {
          emits.add(String(type.literal.value));
        }
      }
    }
  }
}

const DEFINE_EXPOSE = "defineExpose";
function processDefineExpose(ctx, node) {
  if (isCallOf(node, DEFINE_EXPOSE)) {
    if (ctx.hasDefineExposeCall) {
      ctx.error(`duplicate ${DEFINE_EXPOSE}() call`, node);
    }
    ctx.hasDefineExposeCall = true;
    return true;
  }
  return false;
}

const DEFINE_SLOTS = "defineSlots";
function processDefineSlots(ctx, node, declId) {
  if (!isCallOf(node, DEFINE_SLOTS)) {
    return false;
  }
  if (ctx.hasDefineSlotsCall) {
    ctx.error(`duplicate ${DEFINE_SLOTS}() call`, node);
  }
  ctx.hasDefineSlotsCall = true;
  if (node.arguments.length > 0) {
    ctx.error(`${DEFINE_SLOTS}() cannot accept arguments`, node);
  }
  if (declId) {
    ctx.s.overwrite(
      ctx.startOffset + node.start,
      ctx.startOffset + node.end,
      `${ctx.helper("useSlots")}()`
    );
  }
  return true;
}

const DEFINE_OPTIONS = "defineOptions";
function processDefineOptions(ctx, node) {
  if (!isCallOf(node, DEFINE_OPTIONS)) {
    return false;
  }
  if (ctx.hasDefineOptionsCall) {
    ctx.error(`duplicate ${DEFINE_OPTIONS}() call`, node);
  }
  if (node.typeParameters) {
    ctx.error(`${DEFINE_OPTIONS}() cannot accept type arguments`, node);
  }
  if (!node.arguments[0])
    return true;
  ctx.hasDefineOptionsCall = true;
  ctx.optionsRuntimeDecl = unwrapTSNode(node.arguments[0]);
  let propsOption = void 0;
  let emitsOption = void 0;
  let exposeOption = void 0;
  let slotsOption = void 0;
  if (ctx.optionsRuntimeDecl.type === "ObjectExpression") {
    for (const prop of ctx.optionsRuntimeDecl.properties) {
      if ((prop.type === "ObjectProperty" || prop.type === "ObjectMethod") && prop.key.type === "Identifier") {
        if (prop.key.name === "props")
          propsOption = prop;
        if (prop.key.name === "emits")
          emitsOption = prop;
        if (prop.key.name === "expose")
          exposeOption = prop;
        if (prop.key.name === "slots")
          slotsOption = prop;
      }
    }
  }
  if (propsOption) {
    ctx.error(
      `${DEFINE_OPTIONS}() cannot be used to declare props. Use ${DEFINE_PROPS}() instead.`,
      propsOption
    );
  }
  if (emitsOption) {
    ctx.error(
      `${DEFINE_OPTIONS}() cannot be used to declare emits. Use ${DEFINE_EMITS}() instead.`,
      emitsOption
    );
  }
  if (exposeOption) {
    ctx.error(
      `${DEFINE_OPTIONS}() cannot be used to declare expose. Use ${DEFINE_EXPOSE}() instead.`,
      exposeOption
    );
  }
  if (slotsOption) {
    ctx.error(
      `${DEFINE_OPTIONS}() cannot be used to declare slots. Use ${DEFINE_SLOTS}() instead.`,
      slotsOption
    );
  }
  return true;
}

function processAwait(ctx, node, needSemi, isStatement) {
  const argumentStart = node.argument.extra && node.argument.extra.parenthesized ? node.argument.extra.parenStart : node.argument.start;
  const startOffset = ctx.startOffset;
  const argumentStr = ctx.descriptor.source.slice(
    argumentStart + startOffset,
    node.argument.end + startOffset
  );
  const containsNestedAwait = /\bawait\b/.test(argumentStr);
  ctx.s.overwrite(
    node.start + startOffset,
    argumentStart + startOffset,
    `${needSemi ? `;` : ``}(
  ([__temp,__restore] = ${ctx.helper(
      `withAsyncContext`
    )}(${containsNestedAwait ? `async ` : ``}() => `
  );
  ctx.s.appendLeft(
    node.end + startOffset,
    `)),
  ${isStatement ? `` : `__temp = `}await __temp,
  __restore()${isStatement ? `` : `,
  __temp`}
)`
  );
}

var __defProp = Object.defineProperty;
var __defProps = Object.defineProperties;
var __getOwnPropDescs = Object.getOwnPropertyDescriptors;
var __getOwnPropSymbols = Object.getOwnPropertySymbols;
var __hasOwnProp = Object.prototype.hasOwnProperty;
var __propIsEnum = Object.prototype.propertyIsEnumerable;
var __defNormalProp = (obj, key, value) => key in obj ? __defProp(obj, key, { enumerable: true, configurable: true, writable: true, value }) : obj[key] = value;
var __spreadValues = (a, b) => {
  for (var prop in b || (b = {}))
    if (__hasOwnProp.call(b, prop))
      __defNormalProp(a, prop, b[prop]);
  if (__getOwnPropSymbols)
    for (var prop of __getOwnPropSymbols(b)) {
      if (__propIsEnum.call(b, prop))
        __defNormalProp(a, prop, b[prop]);
    }
  return a;
};
var __spreadProps = (a, b) => __defProps(a, __getOwnPropDescs(b));
function compileScript(sfc, options) {
  var _a;
  if (!options.id) {
    warnOnce$4(
      `compileScript now requires passing the \`id\` option.
Upgrade your vite or vue-loader version for compatibility with the latest experimental proposals.`
    );
  }
  const ctx = new ScriptCompileContext(sfc, options);
  const { script, scriptSetup, source, filename } = sfc;
  const hoistStatic = options.hoistStatic !== false && !script;
  const scopeId = options.id ? options.id.replace(/^data-v-/, "") : "";
  const scriptLang = script && script.lang;
  const scriptSetupLang = scriptSetup && scriptSetup.lang;
  const enableReactivityTransform = !!options.reactivityTransform;
  let refBindings;
  if (!scriptSetup) {
    if (!script) {
      throw new Error(`[@vue/compiler-sfc] SFC contains no <script> tags.`);
    }
    return processNormalScript(ctx, scopeId);
  }
  if (script && scriptLang !== scriptSetupLang) {
    throw new Error(
      `[@vue/compiler-sfc] <script> and <script setup> must have the same language type.`
    );
  }
  if (scriptSetupLang && !ctx.isJS && !ctx.isTS) {
    return scriptSetup;
  }
  const scriptBindings = /* @__PURE__ */ Object.create(null);
  const setupBindings = /* @__PURE__ */ Object.create(null);
  let defaultExport;
  let hasAwait = false;
  let hasInlinedSsrRenderFn = false;
  const startOffset = ctx.startOffset;
  const endOffset = ctx.endOffset;
  const scriptStartOffset = script && script.loc.start.offset;
  const scriptEndOffset = script && script.loc.end.offset;
  function hoistNode(node) {
    const start = node.start + startOffset;
    let end = node.end + startOffset;
    if (node.trailingComments && node.trailingComments.length > 0) {
      const lastCommentNode = node.trailingComments[node.trailingComments.length - 1];
      end = lastCommentNode.end + startOffset;
    }
    while (end <= source.length) {
      if (!/\s/.test(source.charAt(end))) {
        break;
      }
      end++;
    }
    ctx.s.move(start, end, 0);
  }
  function registerUserImport(source2, local, imported, isType, isFromSetup, needTemplateUsageCheck) {
    let isUsedInTemplate = needTemplateUsageCheck;
    if (needTemplateUsageCheck && ctx.isTS && sfc.template && !sfc.template.src && !sfc.template.lang) {
      isUsedInTemplate = isImportUsed(local, sfc);
    }
    ctx.userImports[local] = {
      isType,
      imported,
      local,
      source: source2,
      isFromSetup,
      isUsedInTemplate
    };
  }
  function checkInvalidScopeReference(node, method) {
    if (!node)
      return;
    walkIdentifiers(node, (id) => {
      const binding = setupBindings[id.name];
      if (binding && binding !== "literal-const") {
        ctx.error(
          `\`${method}()\` in <script setup> cannot reference locally declared variables because it will be hoisted outside of the setup() function. If your component options require initialization in the module scope, use a separate normal <script> to export the options instead.`,
          id
        );
      }
    });
  }
  const scriptAst = ctx.scriptAst;
  const scriptSetupAst = ctx.scriptSetupAst;
  if (scriptAst) {
    for (const node of scriptAst.body) {
      if (node.type === "ImportDeclaration") {
        for (const specifier of node.specifiers) {
          const imported = getImportedName(specifier);
          registerUserImport(
            node.source.value,
            specifier.local.name,
            imported,
            node.importKind === "type" || specifier.type === "ImportSpecifier" && specifier.importKind === "type",
            false,
            !options.inlineTemplate
          );
        }
      }
    }
  }
  for (const node of scriptSetupAst.body) {
    if (node.type === "ImportDeclaration") {
      hoistNode(node);
      let removed = 0;
      const removeSpecifier = (i) => {
        const removeLeft = i > removed;
        removed++;
        const current = node.specifiers[i];
        const next = node.specifiers[i + 1];
        ctx.s.remove(
          removeLeft ? node.specifiers[i - 1].end + startOffset : current.start + startOffset,
          next && !removeLeft ? next.start + startOffset : current.end + startOffset
        );
      };
      for (let i = 0; i < node.specifiers.length; i++) {
        const specifier = node.specifiers[i];
        const local = specifier.local.name;
        const imported = getImportedName(specifier);
        const source2 = node.source.value;
        const existing = ctx.userImports[local];
        if (source2 === "vue" && (imported === DEFINE_PROPS || imported === DEFINE_EMITS || imported === DEFINE_EXPOSE)) {
          warnOnce$4(
            `\`${imported}\` is a compiler macro and no longer needs to be imported.`
          );
          removeSpecifier(i);
        } else if (existing) {
          if (existing.source === source2 && existing.imported === imported) {
            removeSpecifier(i);
          } else {
            ctx.error(
              `different imports aliased to same local name.`,
              specifier
            );
          }
        } else {
          registerUserImport(
            source2,
            local,
            imported,
            node.importKind === "type" || specifier.type === "ImportSpecifier" && specifier.importKind === "type",
            true,
            !options.inlineTemplate
          );
        }
      }
      if (node.specifiers.length && removed === node.specifiers.length) {
        ctx.s.remove(node.start + startOffset, node.end + startOffset);
      }
    }
  }
  const vueImportAliases = {};
  for (const key in ctx.userImports) {
    const { source: source2, imported, local } = ctx.userImports[key];
    if (source2 === "vue")
      vueImportAliases[imported] = local;
  }
  if (script && scriptAst) {
    for (const node of scriptAst.body) {
      if (node.type === "ExportDefaultDeclaration") {
        defaultExport = node;
        let optionProperties;
        if (defaultExport.declaration.type === "ObjectExpression") {
          optionProperties = defaultExport.declaration.properties;
        } else if (defaultExport.declaration.type === "CallExpression" && defaultExport.declaration.arguments[0] && defaultExport.declaration.arguments[0].type === "ObjectExpression") {
          optionProperties = defaultExport.declaration.arguments[0].properties;
        }
        if (optionProperties) {
          for (const p of optionProperties) {
            if (p.type === "ObjectProperty" && p.key.type === "Identifier" && p.key.name === "name") {
              ctx.hasDefaultExportName = true;
            }
            if ((p.type === "ObjectMethod" || p.type === "ObjectProperty") && p.key.type === "Identifier" && p.key.name === "render") {
              ctx.hasDefaultExportRender = true;
            }
          }
        }
        const start = node.start + scriptStartOffset;
        const end = node.declaration.start + scriptStartOffset;
        ctx.s.overwrite(start, end, `const ${normalScriptDefaultVar} = `);
      } else if (node.type === "ExportNamedDeclaration") {
        const defaultSpecifier = node.specifiers.find(
          (s) => s.exported.type === "Identifier" && s.exported.name === "default"
        );
        if (defaultSpecifier) {
          defaultExport = node;
          if (node.specifiers.length > 1) {
            ctx.s.remove(
              defaultSpecifier.start + scriptStartOffset,
              defaultSpecifier.end + scriptStartOffset
            );
          } else {
            ctx.s.remove(
              node.start + scriptStartOffset,
              node.end + scriptStartOffset
            );
          }
          if (node.source) {
            ctx.s.prepend(
              `import { ${defaultSpecifier.local.name} as ${normalScriptDefaultVar} } from '${node.source.value}'
`
            );
          } else {
            ctx.s.appendLeft(
              scriptEndOffset,
              `
const ${normalScriptDefaultVar} = ${defaultSpecifier.local.name}
`
            );
          }
        }
        if (node.declaration) {
          walkDeclaration(
            "script",
            node.declaration,
            scriptBindings,
            vueImportAliases,
            hoistStatic
          );
        }
      } else if ((node.type === "VariableDeclaration" || node.type === "FunctionDeclaration" || node.type === "ClassDeclaration" || node.type === "TSEnumDeclaration") && !node.declare) {
        walkDeclaration(
          "script",
          node,
          scriptBindings,
          vueImportAliases,
          hoistStatic
        );
      }
    }
    if (enableReactivityTransform && shouldTransform(script.content)) {
      const { rootRefs, importedHelpers } = transformAST(
        scriptAst,
        ctx.s,
        scriptStartOffset
      );
      refBindings = rootRefs;
      for (const h of importedHelpers) {
        ctx.helperImports.add(h);
      }
    }
    if (scriptStartOffset > startOffset) {
      if (!/\n$/.test(script.content.trim())) {
        ctx.s.appendLeft(scriptEndOffset, `
`);
      }
      ctx.s.move(scriptStartOffset, scriptEndOffset, 0);
    }
  }
  for (const node of scriptSetupAst.body) {
    if (node.type === "ExpressionStatement") {
      const expr = unwrapTSNode(node.expression);
      if (processDefineProps(ctx, expr) || processDefineEmits(ctx, expr) || processDefineOptions(ctx, expr) || processDefineSlots(ctx, expr)) {
        ctx.s.remove(node.start + startOffset, node.end + startOffset);
      } else if (processDefineExpose(ctx, expr)) {
        const callee = expr.callee;
        ctx.s.overwrite(
          callee.start + startOffset,
          callee.end + startOffset,
          "__expose"
        );
      } else {
        processDefineModel(ctx, expr);
      }
    }
    if (node.type === "VariableDeclaration" && !node.declare) {
      const total = node.declarations.length;
      let left = total;
      let lastNonRemoved;
      for (let i = 0; i < total; i++) {
        const decl = node.declarations[i];
        const init = decl.init && unwrapTSNode(decl.init);
        if (init) {
          if (processDefineOptions(ctx, init)) {
            ctx.error(
              `${DEFINE_OPTIONS}() has no returning value, it cannot be assigned.`,
              node
            );
          }
          const isDefineProps = processDefineProps(ctx, init, decl.id);
          const isDefineEmits = !isDefineProps && processDefineEmits(ctx, init, decl.id);
          !isDefineEmits && (processDefineSlots(ctx, init, decl.id) || processDefineModel(ctx, init, decl.id));
          if (isDefineProps || isDefineEmits) {
            if (left === 1) {
              ctx.s.remove(node.start + startOffset, node.end + startOffset);
            } else {
              let start = decl.start + startOffset;
              let end = decl.end + startOffset;
              if (i === total - 1) {
                start = node.declarations[lastNonRemoved].end + startOffset;
              } else {
                end = node.declarations[i + 1].start + startOffset;
              }
              ctx.s.remove(start, end);
              left--;
            }
          } else {
            lastNonRemoved = i;
          }
        }
      }
    }
    let isAllLiteral = false;
    if ((node.type === "VariableDeclaration" || node.type === "FunctionDeclaration" || node.type === "ClassDeclaration" || node.type === "TSEnumDeclaration") && !node.declare) {
      isAllLiteral = walkDeclaration(
        "scriptSetup",
        node,
        setupBindings,
        vueImportAliases,
        hoistStatic
      );
    }
    if (hoistStatic && isAllLiteral) {
      hoistNode(node);
    }
    if (node.type === "VariableDeclaration" && !node.declare || node.type.endsWith("Statement")) {
      const scope = [scriptSetupAst.body];
      walk$1(node, {
        enter(child, parent) {
          if (isFunctionType(child)) {
            this.skip();
          }
          if (child.type === "BlockStatement") {
            scope.push(child.body);
          }
          if (child.type === "AwaitExpression") {
            hasAwait = true;
            const currentScope = scope[scope.length - 1];
            const needsSemi = currentScope.some((n, i) => {
              return (scope.length === 1 || i > 0) && n.type === "ExpressionStatement" && n.start === child.start;
            });
            processAwait(
              ctx,
              child,
              needsSemi,
              parent.type === "ExpressionStatement"
            );
          }
        },
        exit(node2) {
          if (node2.type === "BlockStatement")
            scope.pop();
        }
      });
    }
    if (node.type === "ExportNamedDeclaration" && node.exportKind !== "type" || node.type === "ExportAllDeclaration" || node.type === "ExportDefaultDeclaration") {
      ctx.error(
        `<script setup> cannot contain ES module exports. If you are using a previous version of <script setup>, please consult the updated RFC at https://github.com/vuejs/rfcs/pull/227.`,
        node
      );
    }
    if (ctx.isTS) {
      if (node.type.startsWith("TS") || node.type === "ExportNamedDeclaration" && node.exportKind === "type" || node.type === "VariableDeclaration" && node.declare) {
        if (node.type !== "TSEnumDeclaration") {
          hoistNode(node);
        }
      }
    }
  }
  if (ctx.propsDestructureDecl) {
    transformDestructuredProps(ctx, vueImportAliases);
  }
  if (enableReactivityTransform && // normal <script> had ref bindings that maybe used in <script setup>
  (refBindings || shouldTransform(scriptSetup.content))) {
    const { rootRefs, importedHelpers } = transformAST(
      scriptSetupAst,
      ctx.s,
      startOffset,
      refBindings
    );
    refBindings = refBindings ? [...refBindings, ...rootRefs] : rootRefs;
    for (const h of importedHelpers) {
      ctx.helperImports.add(h);
    }
  }
  checkInvalidScopeReference(ctx.propsRuntimeDecl, DEFINE_PROPS);
  checkInvalidScopeReference(ctx.propsRuntimeDefaults, DEFINE_PROPS);
  checkInvalidScopeReference(ctx.propsDestructureDecl, DEFINE_PROPS);
  checkInvalidScopeReference(ctx.emitsRuntimeDecl, DEFINE_EMITS);
  checkInvalidScopeReference(ctx.optionsRuntimeDecl, DEFINE_OPTIONS);
  if (script) {
    if (startOffset < scriptStartOffset) {
      ctx.s.remove(0, startOffset);
      ctx.s.remove(endOffset, scriptStartOffset);
      ctx.s.remove(scriptEndOffset, source.length);
    } else {
      ctx.s.remove(0, scriptStartOffset);
      ctx.s.remove(scriptEndOffset, startOffset);
      ctx.s.remove(endOffset, source.length);
    }
  } else {
    ctx.s.remove(0, startOffset);
    ctx.s.remove(endOffset, source.length);
  }
  if (scriptAst) {
    Object.assign(ctx.bindingMetadata, analyzeScriptBindings(scriptAst.body));
  }
  for (const [key, { isType, imported, source: source2 }] of Object.entries(
    ctx.userImports
  )) {
    if (isType)
      continue;
    ctx.bindingMetadata[key] = imported === "*" || imported === "default" && source2.endsWith(".vue") || source2 === "vue" ? "setup-const" : "setup-maybe-ref";
  }
  for (const key in scriptBindings) {
    ctx.bindingMetadata[key] = scriptBindings[key];
  }
  for (const key in setupBindings) {
    ctx.bindingMetadata[key] = setupBindings[key];
  }
  if (refBindings) {
    for (const key of refBindings) {
      ctx.bindingMetadata[key] = "setup-ref";
    }
  }
  if (sfc.cssVars.length && // no need to do this when targeting SSR
  !(options.inlineTemplate && ((_a = options.templateOptions) == null ? void 0 : _a.ssr))) {
    ctx.helperImports.add(CSS_VARS_HELPER);
    ctx.helperImports.add("unref");
    ctx.s.prependLeft(
      startOffset,
      `
${genCssVarsCode(
        sfc.cssVars,
        ctx.bindingMetadata,
        scopeId,
        !!options.isProd
      )}
`
    );
  }
  let args = `__props`;
  if (ctx.propsTypeDecl) {
    args += `: any`;
  }
  if (ctx.propsIdentifier) {
    ctx.s.prependLeft(
      startOffset,
      `
const ${ctx.propsIdentifier} = __props;
`
    );
  }
  if (ctx.propsDestructureRestId) {
    ctx.s.prependLeft(
      startOffset,
      `
const ${ctx.propsDestructureRestId} = ${ctx.helper(
        `createPropsRestProxy`
      )}(__props, ${JSON.stringify(
        Object.keys(ctx.propsDestructuredBindings)
      )});
`
    );
  }
  if (hasAwait) {
    const any = ctx.isTS ? `: any` : ``;
    ctx.s.prependLeft(startOffset, `
let __temp${any}, __restore${any}
`);
  }
  const destructureElements = ctx.hasDefineExposeCall || !options.inlineTemplate ? [`expose: __expose`] : [];
  if (ctx.emitIdentifier) {
    destructureElements.push(
      ctx.emitIdentifier === `emit` ? `emit` : `emit: ${ctx.emitIdentifier}`
    );
  }
  if (destructureElements.length) {
    args += `, { ${destructureElements.join(", ")} }`;
  }
  let returned;
  if (!options.inlineTemplate || !sfc.template && ctx.hasDefaultExportRender) {
    const allBindings = __spreadValues(__spreadValues({}, scriptBindings), setupBindings);
    for (const key in ctx.userImports) {
      if (!ctx.userImports[key].isType && ctx.userImports[key].isUsedInTemplate) {
        allBindings[key] = true;
      }
    }
    returned = `{ `;
    for (const key in allBindings) {
      if (allBindings[key] === true && ctx.userImports[key].source !== "vue" && !ctx.userImports[key].source.endsWith(".vue")) {
        returned += `get ${key}() { return ${key} }, `;
      } else if (ctx.bindingMetadata[key] === "setup-let") {
        const setArg = key === "v" ? `_v` : `v`;
        returned += `get ${key}() { return ${key} }, set ${key}(${setArg}) { ${key} = ${setArg} }, `;
      } else {
        returned += `${key}, `;
      }
    }
    returned = returned.replace(/, $/, "") + ` }`;
  } else {
    if (sfc.template && !sfc.template.src) {
      if (options.templateOptions && options.templateOptions.ssr) {
        hasInlinedSsrRenderFn = true;
      }
      const { code, ast, preamble, tips, errors } = compileTemplate(__spreadProps(__spreadValues({
        filename,
        source: sfc.template.content,
        inMap: sfc.template.map
      }, options.templateOptions), {
        id: scopeId,
        scoped: sfc.styles.some((s) => s.scoped),
        isProd: options.isProd,
        ssrCssVars: sfc.cssVars,
        compilerOptions: __spreadProps(__spreadValues({}, options.templateOptions && options.templateOptions.compilerOptions), {
          inline: true,
          isTS: ctx.isTS,
          bindingMetadata: ctx.bindingMetadata
        })
      }));
      if (tips.length) {
        tips.forEach(warnOnce$4);
      }
      const err = errors[0];
      if (typeof err === "string") {
        throw new Error(err);
      } else if (err) {
        if (err.loc) {
          err.message += `

` + sfc.filename + "\n" + generateCodeFrame(
            source,
            err.loc.start.offset,
            err.loc.end.offset
          ) + `
`;
        }
        throw err;
      }
      if (preamble) {
        ctx.s.prepend(preamble);
      }
      if (ast && ast.helpers.has(UNREF)) {
        ctx.helperImports.delete("unref");
      }
      returned = code;
    } else {
      returned = `() => {}`;
    }
  }
  if (!options.inlineTemplate && true) {
    ctx.s.appendRight(
      endOffset,
      `
const __returned__ = ${returned}
Object.defineProperty(__returned__, '__isScriptSetup', { enumerable: false, value: true })
return __returned__
}

`
    );
  } else {
    ctx.s.appendRight(endOffset, `
return ${returned}
}

`);
  }
  const genDefaultAs = options.genDefaultAs ? `const ${options.genDefaultAs} =` : `export default`;
  let runtimeOptions = ``;
  if (!ctx.hasDefaultExportName && filename && filename !== DEFAULT_FILENAME) {
    const match = filename.match(/([^/\\]+)\.\w+$/);
    if (match) {
      runtimeOptions += `
  __name: '${match[1]}',`;
    }
  }
  if (hasInlinedSsrRenderFn) {
    runtimeOptions += `
  __ssrInlineRender: true,`;
  }
  const propsDecl = genRuntimeProps(ctx);
  if (propsDecl)
    runtimeOptions += `
  props: ${propsDecl},`;
  const emitsDecl = genRuntimeEmits(ctx);
  if (emitsDecl)
    runtimeOptions += `
  emits: ${emitsDecl},`;
  let definedOptions = "";
  if (ctx.optionsRuntimeDecl) {
    definedOptions = scriptSetup.content.slice(ctx.optionsRuntimeDecl.start, ctx.optionsRuntimeDecl.end).trim();
  }
  const exposeCall = ctx.hasDefineExposeCall || options.inlineTemplate ? `` : `  __expose();
`;
  if (ctx.isTS) {
    const def = (defaultExport ? `
  ...${normalScriptDefaultVar},` : ``) + (definedOptions ? `
  ...${definedOptions},` : "");
    ctx.s.prependLeft(
      startOffset,
      `
${genDefaultAs} /*#__PURE__*/${ctx.helper(
        `defineComponent`
      )}({${def}${runtimeOptions}
  ${hasAwait ? `async ` : ``}setup(${args}) {
${exposeCall}`
    );
    ctx.s.appendRight(endOffset, `})`);
  } else {
    if (defaultExport || definedOptions) {
      ctx.s.prependLeft(
        startOffset,
        `
${genDefaultAs} /*#__PURE__*/Object.assign(${defaultExport ? `${normalScriptDefaultVar}, ` : ""}${definedOptions ? `${definedOptions}, ` : ""}{${runtimeOptions}
  ${hasAwait ? `async ` : ``}setup(${args}) {
${exposeCall}`
      );
      ctx.s.appendRight(endOffset, `})`);
    } else {
      ctx.s.prependLeft(
        startOffset,
        `
${genDefaultAs} {${runtimeOptions}
  ${hasAwait ? `async ` : ``}setup(${args}) {
${exposeCall}`
      );
      ctx.s.appendRight(endOffset, `}`);
    }
  }
  if (ctx.helperImports.size > 0) {
    ctx.s.prepend(
      `import { ${[...ctx.helperImports].map((h) => `${h} as _${h}`).join(", ")} } from 'vue'
`
    );
  }
  ctx.s.trim();
  return __spreadProps(__spreadValues({}, scriptSetup), {
    bindings: ctx.bindingMetadata,
    imports: ctx.userImports,
    content: ctx.s.toString(),
    map: options.sourceMap !== false ? ctx.s.generateMap({
      source: filename,
      hires: true,
      includeContent: true
    }) : void 0,
    scriptAst: scriptAst == null ? void 0 : scriptAst.body,
    scriptSetupAst: scriptSetupAst == null ? void 0 : scriptSetupAst.body,
    deps: ctx.deps ? [...ctx.deps] : void 0
  });
}
function registerBinding(bindings, node, type) {
  bindings[node.name] = type;
}
function walkDeclaration(from, node, bindings, userImportAliases, hoistStatic) {
  let isAllLiteral = false;
  if (node.type === "VariableDeclaration") {
    const isConst = node.kind === "const";
    isAllLiteral = isConst && node.declarations.every(
      (decl) => decl.id.type === "Identifier" && isStaticNode(decl.init)
    );
    for (const { id, init: _init } of node.declarations) {
      const init = _init && unwrapTSNode(_init);
      const isDefineCall = !!(isConst && isCallOf(
        init,
        (c) => c === DEFINE_PROPS || c === DEFINE_EMITS || c === WITH_DEFAULTS
      ));
      if (id.type === "Identifier") {
        let bindingType;
        const userReactiveBinding = userImportAliases["reactive"];
        if ((hoistStatic || from === "script") && (isAllLiteral || isConst && isStaticNode(init))) {
          bindingType = "literal-const";
        } else if (isCallOf(init, userReactiveBinding)) {
          bindingType = isConst ? "setup-reactive-const" : "setup-let";
        } else if (
          // if a declaration is a const literal, we can mark it so that
          // the generated render fn code doesn't need to unref() it
          isDefineCall || isConst && canNeverBeRef(init, userReactiveBinding)
        ) {
          bindingType = isCallOf(init, DEFINE_PROPS) ? "setup-reactive-const" : "setup-const";
        } else if (isConst) {
          if (isCallOf(
            init,
            (m) => m === userImportAliases["ref"] || m === userImportAliases["computed"] || m === userImportAliases["shallowRef"] || m === userImportAliases["customRef"] || m === userImportAliases["toRef"] || m === DEFINE_MODEL
          )) {
            bindingType = "setup-ref";
          } else {
            bindingType = "setup-maybe-ref";
          }
        } else {
          bindingType = "setup-let";
        }
        registerBinding(bindings, id, bindingType);
      } else {
        if (isCallOf(init, DEFINE_PROPS)) {
          continue;
        }
        if (id.type === "ObjectPattern") {
          walkObjectPattern(id, bindings, isConst, isDefineCall);
        } else if (id.type === "ArrayPattern") {
          walkArrayPattern(id, bindings, isConst, isDefineCall);
        }
      }
    }
  } else if (node.type === "TSEnumDeclaration") {
    isAllLiteral = node.members.every(
      (member) => !member.initializer || isStaticNode(member.initializer)
    );
    bindings[node.id.name] = isAllLiteral ? "literal-const" : "setup-const";
  } else if (node.type === "FunctionDeclaration" || node.type === "ClassDeclaration") {
    bindings[node.id.name] = "setup-const";
  }
  return isAllLiteral;
}
function walkObjectPattern(node, bindings, isConst, isDefineCall = false) {
  for (const p of node.properties) {
    if (p.type === "ObjectProperty") {
      if (p.key.type === "Identifier" && p.key === p.value) {
        const type = isDefineCall ? "setup-const" : isConst ? "setup-maybe-ref" : "setup-let";
        registerBinding(bindings, p.key, type);
      } else {
        walkPattern(p.value, bindings, isConst, isDefineCall);
      }
    } else {
      const type = isConst ? "setup-const" : "setup-let";
      registerBinding(bindings, p.argument, type);
    }
  }
}
function walkArrayPattern(node, bindings, isConst, isDefineCall = false) {
  for (const e of node.elements) {
    e && walkPattern(e, bindings, isConst, isDefineCall);
  }
}
function walkPattern(node, bindings, isConst, isDefineCall = false) {
  if (node.type === "Identifier") {
    const type = isDefineCall ? "setup-const" : isConst ? "setup-maybe-ref" : "setup-let";
    registerBinding(bindings, node, type);
  } else if (node.type === "RestElement") {
    const type = isConst ? "setup-const" : "setup-let";
    registerBinding(bindings, node.argument, type);
  } else if (node.type === "ObjectPattern") {
    walkObjectPattern(node, bindings, isConst);
  } else if (node.type === "ArrayPattern") {
    walkArrayPattern(node, bindings, isConst);
  } else if (node.type === "AssignmentPattern") {
    if (node.left.type === "Identifier") {
      const type = isDefineCall ? "setup-const" : isConst ? "setup-maybe-ref" : "setup-let";
      registerBinding(bindings, node.left, type);
    } else {
      walkPattern(node.left, bindings, isConst);
    }
  }
}
function canNeverBeRef(node, userReactiveImport) {
  if (isCallOf(node, userReactiveImport)) {
    return true;
  }
  switch (node.type) {
    case "UnaryExpression":
    case "BinaryExpression":
    case "ArrayExpression":
    case "ObjectExpression":
    case "FunctionExpression":
    case "ArrowFunctionExpression":
    case "UpdateExpression":
    case "ClassExpression":
    case "TaggedTemplateExpression":
      return true;
    case "SequenceExpression":
      return canNeverBeRef(
        node.expressions[node.expressions.length - 1],
        userReactiveImport
      );
    default:
      if (isLiteralNode(node)) {
        return true;
      }
      return false;
  }
}
function isStaticNode(node) {
  node = unwrapTSNode(node);
  switch (node.type) {
    case "UnaryExpression":
      return isStaticNode(node.argument);
    case "LogicalExpression":
    case "BinaryExpression":
      return isStaticNode(node.left) && isStaticNode(node.right);
    case "ConditionalExpression": {
      return isStaticNode(node.test) && isStaticNode(node.consequent) && isStaticNode(node.alternate);
    }
    case "SequenceExpression":
    case "TemplateLiteral":
      return node.expressions.every((expr) => isStaticNode(expr));
    case "ParenthesizedExpression":
      return isStaticNode(node.expression);
    case "StringLiteral":
    case "NumericLiteral":
    case "BooleanLiteral":
    case "NullLiteral":
    case "BigIntLiteral":
      return true;
  }
  return false;
}

const version = "3.3.4";
const walk = walk$1;

export { MagicString, parse_1$1 as babelParse, compileScript, compileStyle, compileStyleAsync, compileTemplate, extractIdentifiers, generateCodeFrame, inferRuntimeType, invalidateTypeCache, isInDestructureAssignment, isStaticProperty, parse$7 as parse, parseCache, registerTS, resolveTypeElements, rewriteDefault, rewriteDefaultAST, shouldTransform as shouldTransformRef, transform as transformRef, transformAST as transformRefAST, version, walk, walkIdentifiers };
